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346.

Cao R. C., Xiao D. Q., Wang M.*, Gao Y. J.*, Ma D.*
Solar-driven photocatalysis for recycling and upcycling plastics
Appiled Catalysis B: Environment, 2024, 341, 123357 [link]

345.

Qin X. T., Zhang R. Q., Xu M., Xu Y., Zheng L. R., Li C. Y., Yu S. X., Yan J., Xie J. L., Wu G. H., Rong J. F.*, Wang M.*, Ma D.*
Selective Hydrogenation of Phenylacetylene by Carbon Monoxide and Water
CCS Chemistry, 2023, 5, 2358-2365 [link]

344.

Jiao Y. C., Wang M.*, Ma D.*
Catalytic Cracking of Polylactic Acid to Acrylic Acid
Chinese Journal of Chemistry, 2023, 41, 2071-2076 [link]

343.

Wang M., Gao Y. J., Yuan S. Y., Yan J., Yu S. X., Xu B. J., Ma D.*
Sunlight-Driven Conversion of Plastic Wastes
Nature Catalysis, in revision

342.

Qin X. T., Xu M., Guan J. X., Feng L., Xu Y., Zheng L. R., Wang M., Zhao J. W., Chen J. L., Zhang J., Xie J. L., Yu Z. H., Zhang R. Q., Li X. M., Liu X.*, Liu J. X.*, Zheng J. R.*, Ma D.*
Photothermal catalytic direct conversion of CO and H2O to hydrocarbons at atmospheric pressure
Nature Energy, in press

341.

Cao R. C., Zhang M. Q., Jiao Y. C., Li Y. C., Sun B., Xiao D. Q., Wang M.*, Ma D.*
Co-upcycling of polyvinyl chloride and polyesters
Nature Sustainability, in press [link]

340.

Sun B., Zhang J., Wang M. L., Yu S. X., Xu Y., Tian S. H., Gao Z. R., Xiao D. Q., Liu G. S., Zhou W., Wang M.*, Ma D.*
Valorization of waste biodegradable polyester for methyl methacrylate production
Nature Sustainability, 2023, 6, 712-719 [link]

339.

Wang M., Ma D.*
Upcycling contaminated plastics
Nature Sustainability, 2023, 6, 1151-1152 [link]

338.

Ma D.*
Transforming end-of-life plastics for a better world
Nature Sustainability, 2023, 6, 1142-1143 [link]

337.

Tian S. H., Li J. R., Xiao D. Q., Ma D.*
Self-Enhanced Catalytic Activity of Pt/TiO2 via Electronic Metal-Support Interaction
ACS Central Science, 2023, 9, 1, 7-9 [link]

336.

Yu J., Qin X. T., Yang Y. S.*, Lv M. X., Yin P., Wang L., Ren Z., Song B. Y., Li Q., Zheng L. R., Hong S., Xing X. R.*, Ma D.*, Wei M*, Duan X.
Highly-Stable Pt/CeO2 Catalyst with Embedding Structure towards
Water-Gas Shift Reaction
Journal of the American Chemical Society, in revision

335.

Xu M., Peng M., Tang H. L., Zhou W., Qiao B. T.*, Ma D.*
Renaissance of Strong Metal–support Interactions
Journal of the American Chemical Society, in revision

334.

Wang L. L., Wang H., Cheng R. F., Wang M. L., Cai X. B., Ren P. J., Xiao D. Q., Wang N., Wen X. D., Diao J. Y.*, Wang X. H.*, Liu H. Y.*, Ma D.*
High-Density Coordinatively Unsaturated Zn Catalyst for Efficient Alkane Dehydrogenation
Journal of the American Chemical Society, 145, 38, 20936-20942 [link]

333.

Jin H. Q., Cao C. Y.*, Cui P. X., Zhao R. Q., Liu X. L., Yan J., Yu X. H.*, Ma D.*, Song W. G.*
Sabatier Phenomenon in Hydrogenation Reactions Induced by Single-Atom Density
Journal of the American Chemical Society, 2023, 145, 22, 12023-12032 [link]

332.

Zhang Q., Peng M., Gao Z. R. Guo W. D., Sun Z. H., Zhao Y., Zhou W.*, Wang M., Mei B. B., Du X. L., Jiang Z., Sun W., Liu C., Zhu Y. F., Liu Y. M., He H. Y., Li Z. H.*, Ma D.*, Cao Y.*
Nitrogen-Neighboured Single Cobalt Sites Enable Heterogeneous Oxidase-Type Catalysis
Journal of the American Chemical Society, 2023, 145, 7, 4166-4176 [link]

331.

Wang X. Y., Li D. D., Gao Z. R., Guo Y.*, Zhang H. B.*, Ma D.*
The Nature of Interfacial Catalysis over Pt/NiAl2O4 for Hydrogen Production from Methanol Reforming Reaction
Journal of the American Chemical Society, 2023, 145, 2, 905-918 [link]

330.

Zhang X. C., Li A. W., Tang H. Y., Xu Y., Qin X. T., Jiang Z., Yu Q. L., Zhou W., Chen L. W., Wang M.*, Liu X.*, Ma D.*
Carbonate Hydrogenated to Formate in the Aqueous Phase over Nickel/TiO2 Catalysts
Angew. Chem. -Int. Edit., 2023, 62, e202307061 [link]

329.

Li S., Liu Y. X., Feng K.*, Li C. Y., Xu J. B., Lu C., Lin H. P.*, Feng Y., Ma D.*, Zhong J.*
High Valence State Sites as Favorable Reductive Centers for High-Current-Density Water Splitting
Angew. Chem. -Int. Edit., 2023, 62, e202308670 [link]

328.

Mi R. L., Zeng L. Z., Wang M. L., Tian S. H., Yan J., Yu S. X., Wang M.*, Ma D.*
Solvent-free Heterogeneous Catalytic Hydrogenation of Polyesters to Diols
Angew. Chem. -Int. Edit., 2023, 62, e202304219 [link]

327.

Zhang X., Xu Y., Liu Y., Niu L., Diao Y. N., Gao Z. R., Chen B. B., Xie J. L., Bi M. S., Wang M., Xiao D. Q., Ma D.*, Shi C.*
A novel Ni-MoCxOy interfaccial catalyst for syngas production via the chemical looping dry reforming of methane
Chem, 2023, 9, 1, 102-116 [link]

326.

Chen X. W., Qin X. T., Jiao Y. Y., Peng M., Diao J. Y., Ren P. J., Li C. Y., Xiao D. Q., Wen X. D., Jiang Z., Wang N., Cai X. B.*, Liu H. Y.*, Ma D.*
Structure-dependence and metal-dependence on atomically dispersed Ir catalysts for efficient n-butane dehydrogenation
Nature Communications, 2023, 14, 2588 [link]

325.

Gao X. F., Zhu L., Yang F., Zhang L., Xu W. H., Zhou X., Huang Y. K., Song H. H., Lin L. L., Wen X. D.*, Ma D.*, Yao S. Y.*
Subsurface nickel boosts the low-temperature performance of a boron oxide overlayer in propane oxidative dehydrogenation
Nature Communications, 2023, 14, 1478 [link]

324.

Gu F. B., Qin X. T., Pang L., Zhang R., Peng M., Xu Y., Hong S., Xie J. L., Wang M., Han D. M., Xiao D. Q., Guo G. S., Wang X. Y.*, Wang Z. H.*, Ma D.*
Acid-Promoted Selective Oxidation of Methane to Formic Acid over Dispersed Rhodium Catalysts under Mild Conditions
ACS Catalysis, 2023, 13, 14, 9509-9514 [link]

323.

Jin H. Q., Cui P. X., Cao C. Y.*, Yu X. H.*, Zhao R. Q., Ma D., Song W. G.*
Understanding the Density-Dependent Activity of Cu Single-Atom
Catalyst in the Benzene Hydroxylation Reaction
ACS Catalysis, 2023, 13, 2, 1316-1325 [link]

322.

Cao Y. W., Peng Y., Cheng D. Y., Chen L., Shang C., Ma D.*, Liu Z. P.*, He L.*
Room-temperature CO Oxidative Coupling for Oxamides Production over Interfacial Au/ZnO Catalysts
ACS Catalysis, 2023, 13, 1, 735-743 [link]

321.

Chen J. W., Jiao Y. Y., Qin X. T., Cai X. B., Wang M. L., Diao J. Y., Huang F., Li C. Y., Ren P. J., Wen X. D., Wang N., Rong J. F., Xiao D. Q.*, Liu H. Y.*, Ma D.*
Atomically Dispersed Rh Enable Efficient Nitriles Hydrogenation to Secondary Amines: Size Effect and Metal-dependent Effect
ACS Catalysis, 2023, 13, 13, 8354-8361 [link]

320.

Wang H. Y., Gao Z. R., Sun B. W., Mu S. Y., Dang F. X., Guo X. W.*, Ma D.*, Shi C.*
Engineering metal-support interaction to construct catalytic interfaces and redisperse metal nanoparticles
Chem Catalysis, 2023, 3, 10, 100768 [link]

319.

Shi X. W., Wang X., Jiang H. Q., Qin X. T., Li X. H., Sheng G., Yu C., Zheng L. R., Zhu C. Z., Zheng L. X., Mao L.*, Ma D.*, Zhu Y. H.*, Zheng H. J.*
Activating surface sulfur atoms via subsurface engineering toward boosted photocatalytic water splitting
Chem Catalysis, 2023, 3, 8, 100695 [link]

318.

Rao Z. Q., Wang K. W., Cao Y. H., Feng Y. B., Huang Z. A.*, Chen Y. L., Wei S. Q., Liu L. Y., Gong Z. M., Cui Y., Li L. N., Tu X., Ma D., Zhou Y.*
Light-Reinforced Key Intermediate for Anticoking To Boost Highly Durable Methane Dry Reforming over Single Atom Ni Active Sites on CeO2
Journal of the American Chemical Society, in press [link]

317.

Xu Y. Z., Wang M. L., Xie Z. W., Tian D., Sheng G., Tang X., Li H. B., Wu Y. C., Song C. Q., Gao X. F., Yao S. Y., Ma D.*, Lin L. L.*
Insights into the interfacial structure of Cu/ZrO2 catalysts for methanol synthesis from CO2 hydrogenation: Effects of Cu-supported nano-ZrO2 inverse interface
Chemical Engineering Journal, 2023, 470, 144006 [link]

316.

An H. Q., Li C. X., Lv Z. T., Wang Y. D., Zhang H. H., Zhao L. Z., Cheng R., Wang S. B., Zhu Q. J., Yin Z.*, Ma D.*
Modulation of Hot Electrons via Interface Engineering of Au@ZnIn2S4/MXene for Efficient Photoelectrochemical Seawater Splitting under Visible Light
The Journal of Physical Chemistry C, 2023, 127, 10515-10523 [link]

315.

Gao W.*, Li Y. W., Xiao D. Q.*, Ma D.*
Advances in photothermal conversion of carbon dioxide to solar fuels
Journal of Energy Chemistry, 2023, 83, 62-78 [link]

314.

Guan M., Guo Y., Kang B. Q., Wang M. L., Li G., Zheng Y., Ding Y. Z., Wang M., Wood N., Lei Y.*, Wei X. J.*, Ma D.*
Uncovering the mystery of Al(III) doping of ε-Fe2O3 in the ancient high-iron black-brown glaze
Journal of the American Ceramic Society, in press [link]

313.

Huang F., Peng M., Liu H. Y.*, Ma D.*
Atomically Dispersed Metals on Nanodiamond-Derived Hybrid Materials for Heterogeneous Catalysis
Accounts of Materials Research, 2023, 4, 3, 233-236 [link]

312.

Li S. W., Lin L. L., Wang Z. H., Ma D.*
Direct Utilization of Crude and Waste H2 via CO tolerant hydrogenation
The Innovation, 2023, 4, 100353 [link]

311.

Tian S. H., Li J. R., Peng X. J., Xu Y., Wang M. L., Tang H. Y., Zhou W., Wang M.*, Ma D.*
Heterogeneous catalytic dehydrogenative coupling of ethylene glycol and primary alcohols into α-hydroxycarboxylic acids
Science China Chemistry, 2023, 66, 2583-2589 [link]

310.

Sun B., Ma D.*
Catalytic recycling of polyesters via a binuclear catalyst
Science China Chemistry, in press [link]

309.

Yin Z. H., Zhang K., Ma N., Liu X., Yin Z.*, Wang H., Yang X., Wang Y., Qin X. T., Cheng D. Y., Zheng Y. M., Wang L. L., Li J. X.*,Xu Z. W., Tang N., Cheng B. W., Xiao D. Q., Ma D.*
Catalytic Membrane Electrode with Co3O4 Nanoarrays for Simultaneous Recovery of Water and Hydrogen from Wastewater
Science China Materials, 2023, 66, 651-663 [link]

308.

Li S. W., Cao R. C., Xu M. Q., Deng Y. C., Lin L. L., Yao S. Y., Liang X., Peng M., Gao Z. R., Ge Y. Z., Liu J. X.*, Li W. X., Zhou W.*, Ma D.*.
Atomically dispersed Ir/α-MoC catalyst with high metal loading and thermal stability for water-promoted hydrogenation reaction
National Science Review, 2022, 9, nwab026 [link]

307.

Guo Y., Wang M. L., Zhu Q. J., Xiao D. Q., Ma D.*
Ensemble effect for single-atom, small cluster and nanoparticle catalysts
Nature Catalysis, 2022, 5, 766-776 [link]

306.

Dong C. Y., Gao Z. R., Li Y. L., Peng M., Wang M., Xu Y., Li C. Y., Xu M., Deng Y. C., Qin X. T., Huang F., Wei X. Y., Wang Y. G.*, Liu H. Y.*, Zhou W.*, Ma D.*
Fully exposed palladium cluster catalysts enable hydrogen production from nitrogen heterocycles
Nature Catalysis, 2022, 5, 485-493 [link]

305.

Huang F., Peng M., Chen Y. L., Cai X. B., Qin X. T., Wang N., Xiao D. Q., Jin L., Wang G. Q., Wen X. D., Liu H. Y.*, Ma D.*
Low-Temperature Acetylene Semi-Hydrogenation over the Pd1–Cu1 Dual-Atom Catalyst
Journal of the American Chemical Society, 144, 40, 18485-18493 [link]

304.

Deng Y. C., Guo Y., Jia Z. M., Liu J. C., Guo J. Q., Cai X. B., Dong C. Y., Wang M., Li C. Y., Diao J. Y., Jiang Z., Xie J. L., Wang N., Xiao H., Xu B. J., Zhang H. B., Liu H. Y.*, Li J.*, Ma D.*
Few-Atom Pt Ensembles Enable Efficient Catalytic Cyclohexane Dehydrogenation for Hydrogen Production
Journal of the American Chemical Society, 2022, 144, 8, 3535-3542 [link]

303.

Zhang J., Wang M.*, Gao Z. R., Qin X. T., Xu Y., Wang Z. H., Zhou W.*, Ma D.*
Importance of Species Heterogeneity in Supported Metal Catalysts
Journal of the American Chemical Society, 2022, 144, 11, 5108–5115 [link]

302.

Cheng D. Y., Wang M.*, Tang L. P., Gao Z. R., Qin X. T., Gao Y. J.*, Xiao D. Q., Zhou W., Ma D.*
Catalytic Synthesis of Formamides by integrating CO2 Capture and Morpholine Formylation on Supported Iridium Catalyst
Angew. Chem. -Int. Edit., 2022, 61, e202202654 [link]

301.

Gu F. B., Qin X. T., Li M. W., Xu Y., Hong S., Ouyang M. Y., Giannakakis, Cao S. F., Peng M., Xie J. L., Wang M., Han D. M., Xiao D. Q., Wang X. Y.*, Wang Z. H.*, Ma D.*
Selective Catalytic Oxidation of Methane to Methanol in Aqueous Medium over Copper Cations Promoted by Atomically Dispersed Rhodium on TiO2
Angew. Chem. -Int. Edit., 2022, 61, e202201540 [link]

300.

Li Y. W., Wang M.*, Liu X. W., Hu C. Q., Xiao D. Q.*, Ma D.*
Catalytic Transformation of PET and CO2 into High-Value Chemicals
Angew. Chem. -Int. Edit., 2022, 61, e202117205 [link]

299.

Zhang M. Q., Wang M.*, Sun B., Hu C. Q., Xiao D. Q., Ma D.*
Catalytic strategies for upvaluing plastic wastes
Chem, 2022, 8, 11, 2912-2923 [link]

298.

Peng M., Xiao D. Q., Ma D.*
Envisioning quantitative catalytic superiority of interfacial sites in three-dimension
Chem, 2022, 8, 4, 892-894 [link]

297.

Wang M., Ma D.*
Reaction: Direct chlorination of ethane to dichloroethane
Chem, 2022, 8, 4, 886-887 [link]

296.

Cheng D. Y., Wang M.*, Xiao D. Q., Ma D.*
Cu/Mo2CTx interface drove CO2 hydrogenation to methanol
Matter, 2022, 5, 8, 2469-2471 [link]

295.

Jia Z. M., Qin X. T., Chen Y. L., Cai X. B., Gao Z. R., Peng M., Huang F., Xiao D. Q., Wen X. D., Wang N., Jiang Z., Zhou W., Liu H. Y.*, Ma D.*
Fully-exposed Pt-Fe cluster for efficient preferential oxidation of CO towards hydrogen purification
Nature Communications, 2022, 13, 6798 [link]

294.

Xu M., Qin X. T., Xu Y., Zhang X. C., Zheng L.R., Liu J. X.*, Wang M.*, Liu X.*, Ma D.*
Boosting CO hydrogenation towards C2+ hydrocarbons over interfacial TiO2-x/Ni catalysts
Nature Communications, 2022, 13, 6720 [link]

293.

He X. H., Zhang H., Zhang X. C., Zhang Y., He Q., Chen H. Y., Chen H. Y., Cheng Y. J., Peng M., Qin X. T., Ji H. B.*, Ma D.*
Building up libraries and production line for single atom catalysts with precursor-atomization strategy
Nature Communications, 2022, 13, 5721 [link]

292.

Liu H. X., Li J. Y., Qin X. T., Ma C., Wang W. W., Xu K., Yan H., Xiao D. Q., Jia C. J.*, Fu Q.*, Ma D.*
Ptn–Ov synergistic sites on MoOx/γ-Mo2N heterostructure for low-temperature reverse water–gas shift reaction
Nature Communications, 2022, 13, 5800 [link]

291.

Zhou X., Gao X. F., Liu M. J., Gao Z. R., Qin X. T., Xu W. H., Ye S. T., Zhou W. H., Fan H. A., Li J., Fan S. R., Yang L., Fu J., Xiao D. Q., Lin L. L.*, Ma D.*, Yao S. Y.*
Photocatalytic Dehydrogenative C-C Coupling of Acetonitrile to Succinonitrile
Nature Communications, 2022, 13, 4379 [link]

290.

Wang Z. H., Dong C. Y., Tang X., Qin X. T., Liu X. W., Peng M., Xu Y., Song C. Q., Zhang J., Liang X., Dai S.*, Ma D.*
CO-tolerant RuNi/TiO2 catalyst for the storage and purification of crude hydrogen
Nature Communications, 2022, 13, 4404 [link]

289.

Cao R. C., Zhang M. Q., Hu C. Q., Xiao D. Q., Wang M.*, Ma D.*
Catalytic Oxidation of Polystyrene to Aromatic Oxygenates over Graphitic Carbon Nitride Catalyst
Nature Communications, 2022, 13, 4809 [link]

288.

Zhao L. M., Qin X. T., Zhang X. R., Cai X. B., Huang F., Jia Z. M., Diao J. Y., Xiao D. Q., Jiang Z., Lu R. F., Wang N., Liu H. Y.*, Ma D.*
A Magnetically Separable Pd Single-atom Catalyst for Efficient Selective Hydrogenation of Phenylacetylene
Advanced Materials, 2022, 34, 2110455 [link]

287.

Wang H. Y., Diao Y. N., Gao Z. R., Smith K. J., Guo X. W.*, Ma D.*, Shi C.*
H2 production from methane reforming over molybdenum carbide catalysts: From surface properties and reaction mechanism to catalyst development
ACS Catalysis, 2022, 12, 24, 15501-15528 [link]

286.

Chen X. W., Peng M., Xiao D. Q., Liu H. Y.*, Ma D.*
Fully Exposed Metal Clusters: Fabrication and Application in Alkanes Dehydrogenation
ACS Catalysis, 2022, 12, 20, 12720-12743 [link]

285.

Wang J. Y., Li X., Wang M. L., Zhang T., Chai X. Y., Lu J. L., Wang T. F.*, Zhao Y. X.*, Ma D.*
Electrocatalytic Valorization of Polyethylene Terephthalate Plastic and CO2 for Simultaneous Production of Formic acid
ACS Catalysis, 2022, 12, 11, 6722-6728 [link]

284.

Guo J. Q., Peng M., Jia Z. M., Li C. Y., Liu H. Y., Zhang H. B.*, Ma D.*
Kinetic Evidence of Most Abundant Surface Intermediates Variation over Ptn and Ptp: Few-Atom Pt Ensembles Enable Efficient Catalytic Cyclohexane Dehydrogenation for Hydrogen Production-II
ACS Catalysis, 2022, 12, 12, 7248-7261 [link]

283.

Yang J. H., Peng M., Zhai D. D., Xiao D. Q., Shi Z. J.*, Yao S. Y.*, Ma D.*
Fixation of N2 into Value-Added Organic Chemicals
ACS Catalysis, 2022, 12, 5, 2898-2906 [link]

282.

Peng M., Jia Z. M., Gao Z. R., Xu M., Cheng D. Y., Wang M., Li C. Y., Wang L. L., Cai X. B., Jiang Z., Jiang H.*, Wang N., Xiao D. Q., Liu H. Y.*, Ma D.*
Anti-Sintering Pd1 Catalyst for Propane Direct Dehydrogenation with in-situ Active Sites Regeneration Ability
ACS Catalysis, 2022, 12, 4, 2244-2252 [link]

281.

Huang F., Peng M., Chen Y. L., Gao Z. R., Cai X. B., Xie J. L., Xiao D. Q., Jin L., Wang G. Q., Wen X. D., Wang N., Zhou W., Liu H. Y.*, Ma D.*
Insight into the Activity of Atomically Dispersed Cu Catalysts for Semihydrogenation of Acetylene: Impact of Coordination Environments
ACS Catalysis, 2022, 12, 1, 48–57 [link]

280.

Jia Z. M., Peng M., Cai X. B., Chen Y. L., Chen X. W., Huang F., Zhao L. M., Diao J. Y., Wang M., Xiao D. Q., Wen X. D., Jiang Z., Liu H. Y.*, Ma D.*
Fully Exposed Platinum Clusters on Nanodiamond/Graphene Hybrid for efficient low-temperature CO oxidation
ACS Catalysis, 2022, 12, 15, 9602-9610 [link]

279.

Meng F. C., Qin X. T., Yang L. N.*, Huang F., Diao J. Y., Cai X. B., Zhang D., Zhu P. B., Peng M., Wang N., Xiao D. Q., Xia L. X.*, Liu H. Y.*, Ma D.*
Fully-Exposed Pd Cluster Catalyst: An Excellent Catalytic Antibacterial Nanomaterial
Small, 2022, 18, 2203283 [link]

278.

Liu Y., Chen Y., Gao Z. R., Zhang X., Zhang L. J., Wang M., Chen B. B., Diao Y. N., Li Y. L., Xiao D. Q., Wang X. P.*, Ma D.*, Shi C.*
Embedding High Loading and Uniform Ni Nanoparticles into Silicalite-1 Zeolite for Dry Reforming of Methane
Applied Catalysis B: Environmental, 2022, 307, 121202 [link]

277.

Meng F. C., Peng M., Chen Y. L., Cai X. B., Huang F., Yang L. N.*, Liu X., Li T., Wen X. D., Wang N., Xiao D. Q., Xia L. X.*, Liu H. Y.*, Ma D.*
Defect-rich graphene stabilized atomically dispersed Cu3 clusters with enhanced oxidase-like activity for antibacterial applications
Applied Catalysis B: Environmental, 2022, 301, 120826 [link]

276.

Song C. Q., Wang Z. H., Yin Z.*, Xiao D. Q.*, Ma D.*
Principles and Applications of Photothermal Catalysis
Chem Catalysis, 2022, 2, 1, 52-83 [link]

275.

Zeng L. Z., Liu X. W., Ma D.*
The rationalized correlation between selectivity and the surface ensemble site of the bimetallic catalyst
Chem Catalysis, 2, 7, 1510-1512 [link]

274.

Zhou W., Gao Z. R., Wang M.*, Wu G. H., Rong J. F.*, Ma D.*
Direct conversion of isopropanol to C6+ branched compounds as high-octane gasoline blendstock
Green Chemistry, 2022, 24, 5083-5087 [link]

273.

Shang W. X., Qin B., Gao M. Y., Qin X. T., Chai Y. C., Wu G. J., Guan N. J., Ma D., Li L. D.*
Efficient Heterogeneous Hydroformylation over Zeolite-encaged Isolated Rhodium Ions
CCS Chemistry, 2022, 5, 1526-1539 [link]

272.

Zhao E., Li M. M., Xu B. B., Wang X. L., Jing Y., Ma D., Mitchell S., Pérez-Ramírez J., Chen Z. P.*
Transfer Hydrogenation with a Carbon-Nitride-Supported Palladium Single-Atom Photocatalyst and Water as a Proton Source
Angew. Chem. -Int. Edit., 2022, 61, e202207410 [link]

271.

Yang Y. Y., Chai Z. G., Qin X. T., Zhang Z. Z., Muhetaer A., Wang C., Huang H. L., Yang C. R., Ma D., Li Q., Xu D. S.*
Light-Induced Redox Looping of a Rhodium/CexWO3 Photocatalyst for Highly Active and Robust Dry Reforming of Methane
Angew. Chem. -Int. Edit., 2022, 61, e202200567 [link]

270.

Gao Z. R., Li A. W., Ma D.*, Zhou W.*
Electron Energy Loss Spectroscopy for Single Atom Catalysis
Topics in Catalysis, 2022, 65, 1609-1619 [link]

269.

Li J. H., Wang L. L.*, He H. J., Chen Y. Q., Gao Z. R., Ma N., Wang B., Zheng L. L., Li R. L., Wei Y. J., Xu J. Q., Xu Y., Cheng B. W., Yin Z.*, Ma D.*
Interface construction of NiCo LDH/NiCoS based on the 2D ultrathin nanosheet towards oxygen evolution reaction
Nano Research, 2022, 15, 4986-4995 [link]

268.

Li S. P., Dong M. H., Peng M., Mei Q. Q., Wang Y. Y., Yang J. J., Yang Y. D., Chen B. F., Liu S. L., Xiao D. Q., Liu H. Z.*, Ma D.*, Han B. X.*
Crystal-Phase-Engineering of PdCu Nanoalloys Facilitates Selective Hydrodeoxygenation at Room Temperature
The Innovation, 2022, 3, 100189 [link]

267.

Gao X. F., Huang Y. K., Xu W. H., Zhou X., Yao S. Y.*, Ma D.*
Oxidative Dehydrogenation of Propane to Propene over Boron-based Catalysts
Progress in Chemical Engineering, 2022, 3, 41 [link]

266.

Zhang W. J., Ma D.*, Javier Pérez-Ramírez*, Chen Z. P.*
Recent Progress in Materials Exploration for Thermocatalytic, Photocatalytic, and Integrated Photothermocatalytic CO2-to-Fuel Conversion
Adv. Energy Sustainability Res., 2022, 3, 2100169 [link]

265.

Zhang B., Zhou W., Zhang J., Gao Z. R., Cheng D. Y., Tang L. P., Liu X. W., Song Y. Q., Dong C. Y., Xu Y., Yan J., Peng M., Liu H. Z., Mark Douthwaite, Wang M.*, Ma D.*
Adjacent Pt Nanoparticles and Sub-nanometer WOx Clusters Determine Catalytic Isomerization of C7H16
CCS Chemistry, 2021, 4, 2639-2650 [link]

264.

Zhang X., Zhang M., Deng Y., Xu M., Artiglia L., Wen W., Gao R., Chen B., Yao S., Zhang X., Peng M., Yan J., Li A., Jiang Z., Gao X., Cao S., Yang C., Kropf A. J., Shi J., Xie J., Bi M., van Bokhoven J. A., Li Y., Wen X., Flytzani-Stephanopoulos M., Shi C.*, Zhou W.*, Ma D.*
A stable low-temperature H2-production catalyst by crowding Pt on α-MoC
Nature, 2021, 589, 396-401 [link]

263.

Wang C. L., Zhang W., He Y. J., Gao Z. R., Liu L. Y., Yu S. Y., Hu Y. X., Wang S., Zhao C. C., Li H., Shi J. N., Zhou W., Li F., Yue H., Li Y. H.*, Wei W.*, Ma G. H.*, Ma D.*
Ferritin-based targeted delivery of arsenic to diverse leukemia types confers strong anti-leukemia therapeutic effects
Nature Nanotechnology, 2021, 16, 1413-1423 [link]

262.

Peng M., Dong C. Y., Gao R., Xiao D. Q., Liu H. Y.*, Ma D.*
Fully-exposed cluster catalyst (FECC): towards rich surface sites and full atom utilization efficiency
ACS Central Science, 2021, 7, 2, 262–273 [link]

261.

Tian S. H., Jiao Y. C., Gao Z. R., Xu Y., Fu L. K., Fu H., Zhou W., Hu C. Q., Liu G. S., Wang M.*, Ma D.*
Catalytic Amination of Polylactic Acid to Alanine
Journal of the American Chemical Society, 2021, 143, 40, 16358–16363 [link]

260.

Lin L. L., Yu Q. L., Peng M., Li A. W., Yao S. Y., Tian S. H., Liu X., Li A., Jiang Z., Gao R.*, Han X. D., Li Y. W., Wen X. D., Zhou W.*, Ma D.*
Atomically dispersed Ni/α-MoC catalyst for hydrogen production from methanol/water
Journal of the American Chemical Society, 2021, 143, 1, 309–317 [link]

259.

Ge Y. Z., Qin X. T., Li A. W., Deng Y. C., Lin L. L., Zhang M. T., Yu Q. L., Li S. W., Peng M., Xu Y., Zhao X. Y., Xu M. Q., Zhou W.*, Yao S. Y.*, Ma D.*
Maximizing the Synergistic Effect of CoNi Catalyst on α-MoC for
Robust Hydrogen Production
Journal of the American Chemical Society, 2021, 143, 2, 628-633 [link]

258.

Lin L. L., Ge Y. Z., Zhang H. B., Wang M., Xiao D. Q., Ma D.*
Heterogeneous Catalysis in Water
JACS Au, 2021, 1, 11, 1834-1848 [link]

257.

Zhai P., Li Y. W., Wang M.*, Liu J. J., Cao Z., Zhang J., Xu Y., Liu X. W., Li W. Y., Zhu Q. J.*, Xiao D. Q., Wen X. D.*, Ma D.*
Development of direct conversion of syngas to unsaturated hydrocarbons based on Fischer-Tropsch route
Chem, 2021, 7, 3027-3051 [link]

256.

Wang M., Xiao D. Q., Ma D.*
Direct Observation of the Relationship of Mo Sites and Acidic Proton in Methane Dehydroaromatization reaction via NMR Spectroscopy
Chem, 2021, 7, 1424-1427 [link]

255.

Peng M. Xiao D. Q., Ma D.*
An Electrified Insight into the Thermocatalysis in Water
Joule, 2021, 5, 11, 2768-2771 [link]

254.

Lin L. L., Liu J. J., Liu X.*, Gao Z. R., Ning R., Yao S. Y., Zhang F., Wang M. L., Liu C., Han L. L., Yang F., Zhang S., Wen X. D., Sanjaya, Wu Y. C., Li X. N., Jose A. Rodriguez*, Ma D.*
Reversing sintering effect of Ni particles on γ-Mo2N via strong metal support interaction
Nature Communications, 2021, 12, 6978 [link]

253.

Liu Z. B., Huang F., Peng M., Chen Y. L., Cai X. B., Wang L. L., Hu Z. N., Wen X. D., Wang N., Xiao D. Q., Jiang H., Sun H. B.*, Liu H. Y.*, Ma D.*
Tuning the selectivity of catalytic nitriles hydrogenation reaction by structure regulation in atomically dispersed Pd catalysts
Nature Communications, 2021, 12, 6194 [link]

252.

Chen X. W., Peng M., Cai X. B., Chen Y. L., Jia Z. M., Deng Y. C., Mei B. B., Jiang Z., Xiao D. Q., Wen X. D., Wang N.*, Liu H. Y.*, Ma D.*
Regulating Coordination Number in Atomically Dispersed Pt Species on Defect-Rich Graphene for n-Butane Dehydrogenation Reaction
Nature Communications, 2021, 12, 2664 [link]

251.

Wu X. Y., Zhang Q., Li W. F., Qiao B. T.*, Ma D.*, Wang S. L.*
Atomic-Scale Pd on 2D Titania Sheets for Selective Oxidation of Methane to Methanol
ACS catalysis, 2021, 11, 22, 14038-14046 [link]

250.

Wang Y. R., Ma J. M. Wang X. Y., Zhang Z. S., Zhao J. H., Yan J., Du Y. P.*, Zhang H. B.*, Ma D.*
Complete CO Oxidation by O2 and H2O over Pt–CeO2−δ/MgO Following Langmuir–Hinshelwood and Mars–van Krevelen Mechanisms, Respectively
ACS Catalysis, 2021, 11, 19, 11820–11830 [link]

249.

Wang L. L., Diao J. Y., Peng M., Chen Y. L., Cai X. B., Deng Y. C., Huang F., Qin X. T., Xiao D. Q., Jiang Z., Wang N., Sun T., Wen X. D.*, Liu H. Y.*, Ma D.*
Cooperative Sites in Fully Exposed Pd Clusters for Low-Temperature Direct Dehydrogenation Reaction
ACS Catalysis, 2021, 11, 18, 11469-11477 [link]

248.

Liu F. Y., Ma Z. Y., Deng Y. C., Wang M., Zhou P., Liu W., Guo S. J., Tong M. P.*, Ma D.*
Tunable covalent organic frameworks with different heterocyclic nitrogen location for efficient Cr(VI) reduction, Escherichia coli disinfection and paracetamol degradation under visible light irradiation
Environmental Science & Technology, 2021, 55, 8, 5371–5381 [link]

247.

Liu X. W., Ma D.*
Neotype strong metal-support interactions: CO2-induced MgO migration on gold nanoparticles
Chem Catalysis, 2021, 1, 29-31 [link]

246.

Wu C. Y., Cheng D. Y., Wang M., Ma D.*
Understanding and Application of Strong Metal-Support Interactions in Conversion of CO2 to Methanol: A Review
Energy & Fuels, 2021, 35, 23, 19012-19023 [link]

245.

Zhuang Q., Ma N., Yin Z. H., Yang X., Yin Z.*, Gao J., Xu Y., Gao Z. R., Wang H., Kang J. L., Xiao D. Q., Li J. X.*, Li X. F., Ma D.*
Rich Surface Oxygen Vacancies of MnO2 for Enhancing Electrocatalytic Oxygen Reduction and Oxygen Evolution Reactions
Advanced Energy and Sustainability Research, 2021, 2100030 [link]

244.

Yao S. Y.*, Sun H. L., Ma D.*
The in-situ XAS study on the formation of Pd nanoparticles via thermal decomposition of Palladium (II) Acetate in hydroxyl functionalized ionic liquids
J. Phys. D: Appl. Phys., 2021, 54, 144001-144009 [link]

243.

Deng X., Qin B., Liu R. Z., Qin X. T., Dai W. L., Wu G. J., Guan N. J., Ma D., Li L. D.*
Zeolite-Encaged Isolated Platinum Ions Enable Heterolytic Dihydrogen Activation and Selective Hydrogenations
Journal of the American Chemical Society, 2021, 143, 49, 20898-20906 [link]

242.

Zhao H. B., Liu J. X., Yang C., Yao S. Y., Su H. Y., Gao Z. R., Dong M., Wang J. G., Hou Y. L.*, Li W. X.*, Ma D.*
Synthesis of iron carbide nanoparticles: Identification of the active phase and mechanism of Fe-based Fischer-Tropsch Synthesis
CCS Chemistry, 2020, 3, 2712–2724 [link]

241.

Xu Y., Zhai P., Deng Y. C., Xie J. L., Liu X., Wang S.*, Ma D.*
Highly Selective Olefin Production from CO2 Hydrogenation on Iron Catalysts: A Subtle Synergy between Manganese and Sodium Additives
Angew. Chem. -Int. Edit., 2020, 59,21736–21744 [link]

240.

Yang J.Y., Peng M., Ren G. Q., Qi H. F., Zhou X., Xu J., Deng F., Chen Z. Q., Zhang J. C., Liu K. P., Pan X. L., Liu W., Su Y., Li W. Z.*, Qiao B. T.*, Ma D.*, Zhang T.
Hydrothermally stable irreducible oxide‐modified Pd/MgAl2O4 catalyst for methane combustion
Angew. Chem. -Int. Edit., 2020, 59, 18522–18526 [link]

239.

Wang F. F., Tian J., Li M. Z., Li W. Z., Chen L. F., Liu X. Z., Li J., Muhetaer Aidaer, Li Q., Wang Y., Gu L., Ma D.* and Xu D. S.*
A Photoactivated Cu–CeO2 Catalyst with Cu‐[O]‐Ce Active Species Designed through MOF Crystal Engineering
Angew. Chem. -Int. Edit., 2020, 59, 8203 –8209 [link]

238.

Zhang X., Liu Y., Zhang M. T., Yu T., Chen B. B., Xu R., Mark Crocker, Zhu X. B., Zhu Y. C., Wang R. M., Xiao D. Q., Bi M. S., Ma D.*, Shi C.*
Synergy between β-Mo2C Nanorods and Non-Thermal Plasma for Selective CO2 Reduction to CO
Chem, 2020, 6, 3312–3328 [link]

237.

Wu C. Y., Lin L. L., Liu J. J., Zhang J. P., Zhang F., Zhou T., Rui N., Yao S. Y., Deng Y. C., Yang F., Xu W. Q., Luo J., Zhao Y., Yan B. H., Wen X. D.*, José A. Rodriguez*, Ma D.*
Inverse ZrO2/Cu as a highly efficient methanol synthesis catalyst from CO2 hydrogenation
Nature Communications, 2020, 11, 5767 [link]

236.

Li Y. W., Gao W., Peng M., Zhang J. B., Sun J. L., Xu Y., Hong S., Liu X., Liu X. W., Wei M.*, Zhang B. S.* and Ma D.*
Interfacial Fe5C2-Cu catalysts toward low-pressure syngas conversion to long-chain alcohols
Nature Communications, 2020, 11, 61 [link]

235.

Dong C. Y., Li Y. L., Cheng D. Y., Zhang M. T., Liu J. J., Wang Y. G., Xiao D. Q., Ma D.*
Supported Metal Clusters: Fabrication and Application in Heterogeneous Catalysis
ACS Catalysis, 2020, 10, 19, 11011–11045 [link]

234.

Li S. W., Liu J. J., Yin Z., Ren P. J., Lin L. L., Gong Y., Yang C., Zheng X. S., Cao R. C., Yao S. Y., Deng Y. C., Liu X.*, Gu L., Zhou W., Zhu J. F., Wen X. D., Xu B. J., Ma D.*
Impact of the Coordination Environment on Atomically Dispersed Pt Catalysts for Oxygen Reduction Reaction
ACS Catalysis, 2020, 10, 907-913 [link]

233.

Song C. Q., Liu X., Xu M., Daniel Masi, Wang Y. G., Deng Y. C., Zhang M. T., Qin X. T., Feng K., Yan J., Leng J., Wang Z. H., Xu Y., Yan B. H., Jin S. Y., Xu D. S., Yin Z.*, Xiao D. Q.*, Ma D.*
Photothermal Conversion of CO2 with Tunable Selectivity Using Fe-based Catalysts: From Oxide to Carbide
ACS Catalysis, 2020, 10, 18, 10364–10374 [link]

232.

He X. H., Deng Y. C., Zhang Y., He Q., Xiao D. Q., Peng M., Zhao Y., Zhang H., Luo R. C., Gan T., Ji H. B.* and Ma D.*
Mechanochemical Kilogram-Scale Synthesis of Noble Metal Single-Atom Catalysts
Cell Reports Physical Science, 2020, 1, 100004 [link]

231.

Hong Je Cho, Doyoung Kim, Li S., Su D., Ma D., Xu B. J.*
Molecular-Level Proximity of Metal and Acid Sites in Zeolite-Encapsulated Pt Nanoparticles for Selective Multistep Tandem Catalysis
ACS Catalysis, 2020, 10, 5, 3340–3348 [link]

230.

Zhang B., Mark Douthwaite, Liu Q., Zhang C., Wu Q. F., Shi R. H., Wu P. X., Liu K., Wang Z. Q., Lin W. W., Cheng H. Y., Ma D., Zhao F. Y., Graham J. Hutchings*
Seed- and solvent-free synthesis of ZSM-5 with tuneable Si/Al ratios for biomass hydrogenation
Green Chemistry, 2020, 22, 1630-1638 [link]

229.

Cai H. Z., Chen B. B., Zhang X., Deng Y. C., Xiao D. Q., Ma D.*, Shi C.*
Highly active sites of low spin FeIIN4species: The identification and the ORR performance
Nano Research, 2020, 14: 122–130 [link]

228.

Dong C. Y., Ma D.*
Vicinal Na+ as structure guardians of atomically dispersed Ru catalysts in hydrogenation reactions
Science China Chemistry, 2020, 63, 1584–1585 [link]

227.

Zhang B., Chen B., Douthwaite M., Tang L. P., Zhang Y. B.*, Wang M., Ma D.*
Multiporous Carbon Encapsulated Ni Nanoparticles Promoting Glycerol Valorisation towards Hydrogenation against Rearrangement
Chinese Journal of Chemistry, 2020, 38, 439-444 [link]

226.

Zhao C. C., Gao Y. J.*, Zhang Z. Y., Ma D.*
Functions of Phytic Acid in Fabricating Metal‐Free Carbocatalyst for Oxidative Coupling of Benzylamines
Chinese Journal of Chemistry, 2020, 38, 1292-1298 [link]

225.

Lin L. L., Yao S. Y., Gao R., Liang X., Yu Q. L., Deng Y. C., Liu J. J., Peng M., Jiang Z., Li S. W., Li Y. W., Wen X. D.*, Zhou W.* and Ma D.*
A highly CO-tolerant atomically dispersed Pt catalyst for chemoselective hydrogenation
Nature Nanotechnology, 2019, 14, 354–361. [link]

224.

Deng Y. C., Ge Y. Z., Xu M., Yu Q. L., Xiao, D. Q., Yao S. Y.*, Ma D.*
Molybdenum carbide: controlling the geometric and electronic structure of noble metals for the activation of O-H and C-H bonds
Accounts of Chemical Research, 2019, 52, 3372-3383. [link]

223.

Jin R. X., Peng M., Li A., Deng Y. C., Jia Z. M., Huang F., Ling Y. J., Yang F., Fu H., Xie J. L., Han X. D., Xiao D. Q., Jiang Z.*, Liu H. Y.*, and Ma D.*
Low Temperature Oxidation of Ethane to Oxygenates by Oxygen over Iridium-Cluster Catalysts
Journal of the American Chemical Society, 2019, 141, 18921-18925. [link]

222.

Gao J., Wang Y., Wu H. H., Liu X., Wang L. L., Yu Q. L., Li A. W., Wang H., Song C. Q., Gao Z. R., Peng M., Zhang M. T., Ma N., Wang J. O., Zhou W., Wang G. X., Yin Z.*, Ma D.*
Construction of a sp3/sp2 Carbon Interface in 3D N‐Doped Nanocarbons for the Oxygen Reduction Reaction
Angew. Chem. -Int. Edit., 2019, 58, 15089-15097 [link]

221.

Zhang M. T.，Wang M., Xu B. J.* and Ma D.*
How to Measure the Reaction Performance of Heterogeneous Catalytic Reactions Reliably
Joule, 2019, 3, 2876-2883 [link]

220.

Zhao, Y. F., Gao, W., Li, S. W., Gareth R. W., Ma, D.*
Solar versus thermal-driven catalysis for energy conversion
Joule, 2019, 3, 920. [link]

219.

Xu Y., Li J., Li W. J., Li W. Z., Zhang X. C., Zhao Y., Xie J. L., Wang X. P., Liu X., Li Y. W., Xiao D. Q., Yin Z.*, Cao Y.*, Ma D.*
Direct conversion of CO and H2O into liquid fuels under mild conditions
Nature Communications, 2019, 10, 1038-1044. [link]

218.

Huang F., Deng Y. C., Chen Y. L., Cai X. B., Peng M., Jia Z. M., Xie J. L., Xiao D. Q., Wen X. D., Wang N., Jiang Z.*, Liu H. Y.* and Ma D.*
Anchoring Cu1 species over nanodiamond-graphene for semi-hydrogenation of acetylene
Nature communications, 2019, 10, 4431. [link]

217.

He X. H., He Q., Deng Y. C., Peng M., Chen H. Y., Zhang Y., Yao S. Y., Zhang M. T., Xiao D. Q., Ma D.*, Ge B. H.* and Ji H. B.*
A versatile route to fabricate single atom catalysts with high chemoselectivity and regioselectivity in hydrogenation
Nature Communications, 2019, 10, 3633. [link]

216.

Wang C. F.*, Zhang L., Huang X., Zhu Y. F., Li, G., Gu Q. F., Chen J. Y., Ma L. G., Li X. J., He Q. H., Xu J. B., Sun Q., Song C. Q., Peng M., Sun J. L.* and Ma D.*
Maximizing sinusoidal channels of HZSM-5 for high shape-selectivity to p-xylene
Nature Communications, 2019, 10, 4348. [link]

215.

Li S. W., Yang J. H., Song C. Q., Zhu Q. J. and Ma. D.*
Iron Carbides: Control Synthesis and Catalytic Applications in COx Hydrogenation and Electrochemical HER
Advanced Materials, 2019, 31, 1901796. [link]

214.

Liu C., Xu X. Z., Qiu L., Wu M. H., Qiao R. X., Wang L., Wang J. H., Niu J. J., Liang J., Zhou X., Zhang Z. H., Peng M., Gao P., Wang W. L., Bai X. D., Ma D., Jiang Y., Wu X. S., Yu D. P., Wang E. G., Xiong J. *, Ding F. * and Liu K. H. *
Kinetic modulation of graphene growth by fluorine through spatially confined decomposition of metal fluorides
Nature Chemistry, 2019, 11, 730-736. [link]

213.

Duan H. H., Liu J. C., Xu M., Zhao Y. F., Ma X. L., Dong J. C., Zheng X. S., Zheng J. W., Christopher S. A., Mohsen D., Peng Y. K., Titipong I., Chen D. L., Angus I. K., Jean-Charles B., Li J.*, Shik Chi Edman Tsang*, Dermot O'Hare*
Molecular nitrogen promotes catalytic hydrodeoxygenation
Nature Catalysis, 2019, 2, 1078-1087 [link]

212.

Wu Z. X., Yang B., Miao S., Liu W., Xie J. L., Lee S., Michael J P., Xiao D. Q., Su D. S.*, and Ma D.*
Lattice strained Ni-Co alloy as high-performance catalyst for catalytic dry-reforming of methane
ACS Catalysis, 2019, 9, 2693-2700. [link]

211.

Yao S. Y., Lin L. L., Liao W. J., Rui N., Li N., Liu Z. Y., Cen J. J., Zhang F., Li X., Song L., Luis Betancourt D. L., Su D., Sanjaya D. S., Liu P, Ma D.*, Chen J. G.* and Jose A. R.*
Exploring Metal–Support Interactions To Immobilize Subnanometer Co Clusters on γ–Mo2N: A Highly Selective and Stable Catalyst for CO2 Activation
ACS Catalysis, 2019, 10, 9087-9097. [link]

210.

Zhang J. Y., Deng Y. C. Cai X. B., Chen, Y. L., Peng M., Jia Z. M., Jiang Z., Ren P. J., Yao S. Y., Xie J. L., Xiao D. Q., Wen X. D., Wang N.,* Liu H. Y.,* Ma D.*
Tin-Assisted Fully Exposed Platinum Clusters Stabilized on Defect-Rich Graphene for Dehydrogenation Reaction
ACS Catalysis, 2019, 9, 5998-6005. [link]

209.

Zhang Y. R., Gao Y. J.*, Yao S. Y.*, Li S. W., Asakura H., Teramura K., Wang H. J. and Ma D.*
Sublimation-Induced Sulfur Vacancies in MoS2 Catalyst for One-Pot Synthesis of Secondary Amines
ACS Catalysis, 2019, 9 7967-7975 [link]

208.

Cui X. J., Su Y. H., Chen R. X., Yu L., Dong J. C., Ma C., Wang S. H., Li J. F., Yang F., Xiao J. P., Zhang M. T., Ma D., Deng D. H.*, Zhang D. H., Tian Z. Q., Bao X. H.
Room-temperature electrochemical water–gas shift reaction for high purity hydrogen production
Nature Communications, 2019, 10, 86-93. [link]

207.

Yan P. Q., Guo W. H., Liang Z. B., Meng W., Yin Z., Li S. W., Li M. Z., Zhang M. T., Yan J., Xiao D. Q., Zou R. Q.*, Ma, D.*
Highly efficient K-Fe/C catalysts derived from metal-organic frameworks towards ammonia synthesis
Nano Research, 2019, 12, 2341-2347. [link]

206.

Gao R., Liu X. C., Zhi Cao Z., Liu W. X., Ma D., Yang Y., Li Y. W., Hoffmann R., Wen X. D
Carbon Permeation: The Prerequisite Elementary Step in Iron-Catalyzed Fischer–Tropsch Synthesis
Catalysis Letters, 2019, 149, 645-664. [link]

205.

Hu C. Q.,* Sun J. H., Wang D. J., Peng M., Shao M. Y., Zhu Q, S.,* and Ma D.*
Hydrogen Diffusion Guided Design of Pt-Based Alloys for Inhibition of Butadiene Over-Hydrogenation
Chemphyschem, 2019, 20, 1-9. [link]

204.

Deng Y. C., Gao R., Lin L. L., Liu T., Wen X. D., Wang S.*, Ma D.*
Solvent tunes the selectivity of hydrogenation reaction over α-MoC catalyst
Journal of the American Chemical Society, 2018, 140, 14481-14489. [link]

203.

Xu M., Yao S. Y., Rao D. M., Niu Y. M., Liu N., Peng M., Zhai P., Man Y., Zheng L. R., Wang B.*, Zhang B. S.*, Ma D.*, Wei M.*
Insights into interfacial synergistic catalysis over Ni@TiO2-x catalyst toward water-gas shift reaction
Journal of the American Chemical Society, 2018, 140, 11241-11251. [link]

202.

Yin Z.*, Wang Y., Song C. Q., Zheng L. H., Ma N., Liu X., Li S. W., Lin L. L., Li M. Z., Xu Y., Li W. Z., Hu G., Fang Z. Y., Ma D.*
Hybrid Au-Ag nanostructures for enhanced plasmon-driven catalytic selective hydrogenation through visible light irradiation and surface-enhanced raman scattering
Journal of the American Chemical Society, 2018, 140, 864-867. [link]

201.

Huang F., Deng Y. C., Chen Y. L., Cai X. B., Peng M., Jia Z. M., Ren P. J., Xiao D. Q., Wen X. D., Wang N., Liu H. Y.*, Ma D.*
Atomically dispersed Pd on nanodiamond/graphene hybrid for selective hydrogenation of acetylene
Journal of the American Chemical Society, 2018, 140, 13142-13146. [link]

200.

Xie J. J., Jin R. X., Li A., Bi Y. P., Ruan Q. S., Deng Y. C., Zhang Y. J., Yao S. Y., Sankar G., Ma D.*, Tang J. W.*
Highly selective oxidation of methane to methanol at ambient conditions by titanium dioxide-supported iron species
Nature Catalysis, 2018, 1, 889-896. [link]

199.

Gao W., Gao R., Zhao Y. F., Peng M., Song C. Q., Li M. Z., Li S. W., Liu J. J., Li W. Z., Deng Y. C., Zhang M. T., Xie J. L., Hu G., Zhang Z. S., Long R., Wen X. D.*, Ma D.*
Photo-driven syngas conversion to lower olefins over oxygen-decorated Fe5C2 catalyst
Chem, 2018, 4, 2917. [link]

198.

Yao S.Y., Xiao D.Q., Ma D.*
Observing how Fisher-Tropsch synthesis catalysts work at the nanoscale via operando STXM
Chem, 2018, 4, 2483-2498. [link]

197.

Wang Y., Peng M., Zhang J., An J., Du S., An H., Fan F., Zhai P., Ma D.,* Wang F.*
Selective production of phase-separable product from a mixture of biomass-derived aqueous oxygenates
Nature Communications, 2018, 9, 5183. [link]

196.

Zhao Y.F., Li Z.H., Li M.Z., Liu J.J., Liu X.W., Waterhouse G.I., Wang Y.S., Zhao J.Q., Gao W., Zhang Z.S., Long R., Zhang Q.H., Gu L., Liu X., Wen X.D.*, Ma D.*, Wu L.Z., Tung C.H., Zhang T.R.*
Reductive Transformation of Layered-Double-Hydroxide Nanosheets to Fe-Based Heterostructures for Efficient Visible-Light Photocatalytic Hydrogenation of CO
Advanced Materials, 2018, 30, 180312. [link]

195.

Zhao, H.; Yao, S.; Zhang, M.; Huang, F.; Fan, Q.; Zhang, S.; Liu, H.; Ma, D.; Gao, C.
Ultra-Small Platinum Nanoparticles Encapsulated in Sub-50 nm Hollow Titania Nanospheres for Low-Temperature Water–Gas Shift Reaction
ACS Applied Materials & Interfaces, 2018, 10, 36954-36960. [link]

194.

Lin L. L., Yao S. Y., Liu Z. Y., Zhang F., Li N., Vovchok D., Martinez-Arias A., Castaneda R., Lin J. Y., Senanayake S. D., Su D., Ma D.*, Rodriguez J. A.*
In situ characterization of Cu/CeO2 nanocatalysts for CO2 hydrogenation: Morphological effects of nanostructured ceria on the catalytic activity
J. Phys. Chem. C., 2018, 122, 12934-12943. [link]

193.

Li S. W., Ren P. J., Yang C., Liu X.*, Yin Z., Li W. Z., Yang H. J., Li J., Wang X. P., Wang Y. , Cao R. C., Lin L. L., Yao S. Y., Wen X. D., Ma D.*
Fe5C2 nanoparticles as low-cost HER electrocatalyst: the importance of Co substitution
Science Bulletin, 2018, 63, 1358-1363. [link]

192.

Li W. J., Gao Y. J., Tang P., Xu Y., Ma D.*
One-step synthesis of carbon-supported copper nanoparticles from biomass for N-arylation of pyrazole
Journal of Energy Chemistry, 2018, 27, 859-865. [link]

191.

Gao W. Zhu Q. J., Ma D.*
Nanostructured Catalyst for Fischer–Tropsch Synthesis
Chinese Journal Of Chemistry, 2018, 36, 978-988. [link]

190.

Ge Y. Z., Lin L. L., Yao, S. Y., Zhou, W., Wen X. D., Shi C., Ma D.*
Catalysis for efficient low-temperature hydrogen production and storage
Chinese Science Bulletin, 2018, 63, 2140-2147. [link]

189.

Lin L. L., Ge Y. Z., Zhou W., Wen X. D., Shi C., Ma, D.*
Low-temperature hydrogen production from water and methanol using Pt/α-MoC catalysts
Bulletin of National Natural Science Foundation of China, 2018, 32, 376-381. DOI：10.16262/j.cnki.1000-8217.2018.04.006

188.

Zhang X., Shi C., Chen B. B., A. N. Kuhn., Ma D.* and Yang H. *
Progress in hydrogen production over transition metal carbide catalysts: challenges and opportunities
Current Opinion in Chemical Engineering, 2018, 20, 68-77. [link]

187.

Yao S. Y., Zhang X., Zhou W., Gao R., Xu W. Q., Ye Y. F., Lin L. L., Wen X. D., Liu P., Chen B. B., Ethan C., Guo J. H., Zuo Z. J., Li W. Z., Xie J. L., Lu L., Christopher J. K., Gu L., Shi C.*, Jose A. R.*, Ma D.*
Atomic-layered Au clusters on α-MoC as catalysts for the low-temperature water-gas shift reaction
Science., 2017, 357, 389-393 [link]

186.

Lin L. L., Zhou W., Gao R., Yao S. Y., Zhang X., Xu W. Q., Zheng S. J., Jiang Z., Yu Q. L., Li Y. W., Shi C.*, Wen X. D.*, Ma D.*
Low-temperature hydrogen production from water and methanol using Pt/α-MoC catalysts
Nature., 2017, 544, 80-83. [link]

185.

Wei-Zhen Li, Jin-Xun Liu, Jun Gu, Wu Zhou, Si-Yu Yao, Rui Si, Yu Guo, Hai-Yan Su, Chun-Hua Yan, Wei-Xue Li*, Ya-Wen Zhang*, Ding Ma*
Chemical Insights into the Design and Development of Face-centered cubic Ruthenium Catalysts for Fischer-Tropsch Synthesis
Journal of the American Chemical Society., 2017, 139, 2267-2276. [link]

184.

S. Li, Y. Xu, Y. Chen, W. Li, L. Lin, M. Li, Y. Deng, X. Wang, B. Ge, C. Yang, S. Yao, J. Xie, Y. Li, X. Liu* and D. Ma*
Tuning the selectivity of the catalytic CO₂ hydrogenation reaction by strong metal-support interaction in Ir/CeO₂ catalysts
Angew. Chem. -Int. Edit., 2017,56,10761-10765. [link]

183.

Zhao B., Zhai P., Wang P., Li J., Li T., Zhao M., Hu G., Yang Y., Li Y., Zhang Q., Fan W.*, Ma D.*
Direct transformation of syngas to aromatics over Na-Zn-Fe₅C₂/hierarchical HZSM-5 tandem catalysts
Chem, 2017,3，323-333. [link]

182.

Xiao Zhang,, Xiaobing Zhu, Lili Lin, Siyu Yao, Mengtao Zhang, Xi Liu, Xiaoping Wang, Yong-Wang Li, Chuan Shi*, Ding Ma*
Highly dispersed Copper over β-Mo2C as Efficient and Stable Catalysts for RWGS Reaction
ACS Catal., 2017, 7, 912-918. [link]

181.

Yang C., Zhao B., Gao R., Yao S. Y., Zhai P., Li S. W., Yu J., Hou Y. L.* and Ma D*
Construction of Synergistic Fe5C2/Co Heterostructured Nanoparticles as an Enhanced Low Temperature Fischer-Tropsch Synthesis Catalyst
ACS Catal., 2017, 9, 5661-5667. [link]

180.

Peng Zhai, Pei-Pei Chen , Jinglin Xie, Jin-Xun Liu, Huabo Zhao, Lili Lin, Bo Zhao, Hai-Yan Su, Qingjun Zhu, Wei-Xue Li*, Ding Ma*
Carbon induced selectivity regulation of cobalt-based Fischer-Tropsch catalysts by ethylene treatment
Faraday Discuss., 2017, 197, 207-224. [link]

179.

Gao J., Ma N., Zheng Y. M., Zhang J. F., Gui J. Z., Guo C. K., An H. Q., Tan X. Y., Yin Z.*, Ma D.*
Cobalt/Nitrogen-Doped Porous Carbon Nanosheets Derived from Polymerizable Ionic Liquids as Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reaction
ChemCatChem., 2017, 9, 1601-1609. [link]

178.

Lin L. L., Sheng W. C., Yao S. Y., Ma D.*, Chen J. G.*
Pt/Mo₂C/C-cp as a highly active and stable catalyst for ethanol electrooxidation
Journal of Power Sources., 2017, 345, 182-189. [link]

177.

Qiu B., Yang C., Guo W. H., Xu Y., Liang Z. B., Ma D.*, Zou R. Q.*
Highly dispersed Co-based Fischer-Tropsch synthesis catalysts from metal-organic frameworks
Journal of Materials Chemistry A., 2017, 5, 8081-8086. [link]

176.

Li M. Z., Wang Y. O., Tang P., Xie N. H., Zhao Y. X., Liu X., Hu G., Xie J. L., Zhao Y. F.*, Tang J. W., Zhang T. R., Ma D.*
Graphene with Atomic-Level In-Plane Decoration of h-BN Domains for Efficient Photocatalysis
Chemistry of Materials., 2017, 29, 2769-2776. [link]

175.

Yao S. Y., Yang C., Zhao H. B., Li S. W., Lin L. L., Wen W., Liu J. X., Hu G., Li W. X., Hou Y. L.*, Ma D.*
Reconstruction of the Wet Chemical Synthesis Process: The Case of Fe₅C₂ Nanoparticles
Journal of Physical Chemistry C., 2017, 121, 5154-5160. [link]

174.

Li S. W., Yang C., Yin Z., Yang H. J., Chen Y. F., Lin L. L., Li M. Z., Li W. Z., Hu G., Ma D.*
Wet-chemistry synthesis of cobalt carbide nanoparticles as highly active and stable electrocatalyst for hydrogen evolution reaction
Nano Research., 2017, 10, 1322-1328. [link]

173.

Shang L., Liang Y. H., Li M. Z., Geoffrey I. N. Waterhouse, Tang P., Ma D., Wu L. Z., Tung C. H., Zhang T. R.*
"Naked" Magnetically Recyclable Mesoporous Au-γ-Fe₂O₃ Nanocrystal Clusters: A Highly Integrated Catalyst System
Advanced Functional Materials., 2017, 27, 1606215. [link]

172.

Zhai P., Xu C., Gao R., Liu X., Li M. Z., Li W. Z., Fu X. P., Jia J. J., Xie J. L., Zhao M., Wang X. P., Li Y. W., Zhang Q. W.*, Wen X. D.*, Ma D.*
Highly Tunable Selectivity for Syngas-Derived Alkenes over Zinc and Sodium-Modulated Fe5C2 Catalyst
Angew. Chem.-Int. Edit., 2016, 55:9902-9906. [link]

171.

Gao Y. J., Tang P., Zhou H., Zhang W., Yang H. J., Yan N., Hu G., Mei D. H., Wang J. G.*, Ma D.*
Graphene Oxide Catalyzed C-H Bond Activation: The Importance of Oxygen Functional Groups for Biaryl Construction
Angew. Chem.-Int. Edit., 2016, 55(9):3234-3234. [link]

170.

Zhao Y. F., Zhao B., Liu J. J., Chen G. B., Gao R., Yao S. Y., Li M. Z., Zhang Q. H., Gu L., Xie J. L., Wen X. D., Wu L. J., Tung C. H., Ma D.*, Zhang T. R.*
Oxide-modified nickel photocatalysts for the production of hydrocarbons in visible light
Angew. Chem.-Int. Edit., 2016, 55, 4215-4219. [link]

169.

Yin Z., Gao D. F. , Yao S. Y., Zhao B., Cai F., Lin L. L., Tang P., Zhai P., Wang G. X.*, Ma D.*, Bao X. H.
Highly selective palladium-copper bimetallic electrocatalysts for the electrochemical reduction of CO2 to CO
Nano Energy, 2016, 27:35-43. [link]

168.

Tang P., Hu G., Li M. Z., Ma D.*
Graphene-based metal-free catalysts for catalytic reactions in the liquid phase
ACS Catalysis, 2016, 6(10):6948-6958. [link]

167.

Wang C., Zhai P., Zhang Z. C., Zhou Y., Zhang J. K., Zhang H., Shi Z. J.*, Ray P. S. Han., Huang F. Q.*, Ma D.*
Nickel catalyst stabilization via graphene encapsulation for enhanced methanation reaction
Journal of Catalysis, 2016, 334:42-51. [link]

166.

Yu J., Li W., Zhang T., Ma D.*, Zhang Y.*
Ruthenium Nanoclusters Dispersed on Titania Nanorods and Nanoparticles as High-Performance Catalysts for AqueousPhase Fischer-Tropsch Synthesis
Catal. Sci. Technol., 2016, 6, 8355-8363 [link]

165.

Wu X. H., Cui L. B., Tang P., Hu Z. Q., Ma D., Shi Z. J.*
Synthesis and catalytic activity of heteroatom doped metal-free single-wall carbon nanohorns
Chemical Communications, 2016, 52(31):5391-5393. [link]

164.

Pan J. L., Mu C., Li Q., Li W. Z., Ma D., Xu D. S.*
Room-Temperature, Hydrochloride-Assisted, One-Step Deposition for Highly Efficient and Air-Stable Perovskite Solar Cells
Advanced Materials, 2016, 28, 8309–8314. [link]

163.

Chen L. M.*, Bao Y. F., Sun Y. H., Ma D. , Ye D. Q. and Huang B. C.
The graphitic carbon strengthened synergetic effect between Pt and FeNi in CO preferential oxidation in excess hydrogen at low temperature
Catal. Sci. Technol., 2016, 6, 98-106. [link]

162.

Yang J. H., Yang D., Tang P., Ma D.*
Liquid-Phase Heterogeneous Catalytic Reactions by Metal-Free Graphene-Based Catalysts
Acta Physico-Chimica Sinica, 2015, 32(1):75-84. [link]

161.

Gao Y. J., Chen X., Zhang J. G., Asakura Hiroyuki, Tanaka Tsunehiro, Teramura Kentaro, Ma D.*, Yan N.*
Popping of Graphite Oxide: Application in Preparing Metal Nanoparticle Catalysts
Advanced Materials, 2015, 27(32):4688-4694. [link]

160.

Wu Z. X., Chen W. L., Liu H. Y., Zhai P., Xiao C. X., Su D. S., Liu H. C.*, Ma D.*
Reconstruction of Rh nanoparticles in methanol oxidation reaction
Catalysis Science & Technology, 2015, 5(8):4116-4122. [link]

159.

Wang Y., Yao S. Y., Crocker Mark, Zhu X. B., Chen B. B., Xie J. L., Shi C.*, Ma D.*
An energy-efficient catalytic process for the tandem removal of formaldehyde and benzene by metal/HZSM-5 catalysts
Catalysis Science & Technology, 2015, 5(11):4968-4972. [link]

158.

Wang C., Zhai P., Zhang Z. C., Zhou Y., Ju J., Shi Z. J.*, Ma D.*, Ray P. S. Han.*, Huang F. Q.*
Synthesis of Highly Stable Graphene-Encapsulated Iron Nanoparticles for Catalytic Syngas Conversion
Particle & Particle Systems Characterization, 2015, 32(1):29-34. [link]

157.

Ma D., Kamer P., Perez Ramirez J., Tanaka T.
Catalysis Science & Technology - five years in 2015
Catalysis Science & Technology, 2015, 5(1):21-23. [link]

156.

Li W. J., Gao Y. J., Yao S. Y., Ma D.*, Yan N.*
Effective deoxygenation of fatty acids over Ni(OAc)(2) in the absence of H2 and solvent
Green Chemistry, 2015, 17(8):4198-4205. [link]

155.

Konnerth Hannelore, Zhang J. G., Ma D., Prechtl Martin H. G.*, Yan N.*
Base promoted hydrogenolysis of lignin model compounds and organosolv lignin over metal catalysts in water
Chemical Engineering Science, 2015, 123:155-163. [link]

154.

Zhang H., Liu J. Y., Zhao G. Q., Gao Y. J., Tyliszczak Tolek, Glans Per-Anders, Guo J. H.*, Ma D.*, Sun X. H., Zhong J.*
Probing the Interfacial Interaction in Layered-Carbon-Stabilized Iron Oxide Nanostructures: A Soft X-ray Spectroscopic Study
ACS Applied Materials & Interfaces, 2015, 7(15):7863-7868. [link]

153.

Dai X. P.*, Liang J., Ma D., Zhang X., Zhao H. B., Zhao B., Guo Z. G., Kleitz Freddy, Qiao S. Z.*
Large-pore mesoporous RuNi-doped TiO2-Al2O3 nanocomposites for highly efficient selective CO methanation in hydrogen-rich reformate gases
Applied Catalysis B: Environmental, 2015, 165:752-762. [link]

152.

Chen A. B.*, Yu Y. F., Wang R. J., Yu Y. H., Zang W. W., Tang P., Ma D.
Nitrogen-doped dual mesoporous carbon for the selective oxidation of ethylbenzene
Nanoscale, 2015, 7(35):14684-14690.2015, 7(35):14684-14690. [link]

151.

Tang P., Zhu Q. J., Wu Z. X., Ma D.*
Methane Conversion: the past and future
Energy Environ. Sci., 2014, 7, 2580. [link]

150.

Yin Z.*, Zhang W., Fu Q., Yue H., Wei W.*, Tang P., Li W. J., Li W. Z., Lin L. L., Ma G. H., Ma D.*
Construction of Stable Chainlike Au Nanostructures via Silica Coating and Exploration for Potential Photothermal Therapy
Small, 2014, 10(18):3619-3624. [link]

149.

Li W. J., Gao Y. J., Chen W. L., Tang P., Li W. Z., Shi Z. J., Su D. S., Wang J. G.*, Ma D.*
Catalytic Epoxidation Reaction over N-Containing sp(2) Carbon Catalysts
ACS Catalysis, 2014, 4(5):1261-1266. [link]

148.

Tang P., Hu G., Gao Y. J., Li W. J., Yao S. Y., Liu Z. Y., Ma D.*
The microwave adsorption behavior and microwave-assisted heteroatoms doping of graphene-based nano-carbon materials
Scientific Reports, 2014, 4(5):901. [link]

147.

Yin Z. *, Zhang Y. N., Chen K., Li J., Li W. J., Tang P., Zhao H. B., Zhu Q. J., Bao X. H., Ma D.*
Monodis persed bimetallic PdAg nanoparticles with twinned structures: Formation and enhancement for the methanol oxidation
Scientific Reports, 2014, 4(4):288. [link]

146.

Yin Z., Lin L. L., Ma D.*
Construction of Pd-based nanocatalysts for fuel cells: opportunities and challenges
Catalysis Science & Technology, 2014, 4(12):4116-4128. [link]

145.

Yang J. H. *, Wang C., Yang D., Li X. Y., Shang P., Li Y. M., Ma D.*
Boron-doped alpha-Ni(OH)(2) nanoflowers with high specific surface area as electrochemical capacitor materials
Materials Letters, 2014, 128:380-383. [link]

144.

Gao Y. J., Zhang J. G., Chen X., Ma D., Yan N.*
A Metal-Free, Carbon-Based Catalytic System for the Oxidation of Lignin Model Compounds and Lignin
ChemPlusChem, 2014, 79(6):825-834. [link]

143.

Tang P., Gao Y. J., Yang J. H., Li W. J., Zhao H. B., Ma D.*
Growth mechanism of N doped graphene materials and their catalytic behavior in the selective oxidation of ethylbenzene
Chinese Journal of Catalysis, 2014, 35(6):922-928. [link]

142.

Yang J. H.*, Tan J., Ma D.*
Nickel phosphate molecular sieve as electrochemical capacitors material
Journal of Power Sources, 2014, 260:169-173. [link]

141.

Yang J. H.*, Yu Q. T., Li Y. M., Mao L. Q., Ma D.*
Batch fabrication of mesoporousboron-doped nickel oxide nanoflowers for electrochemical capacitors
Materials Research Bulletin, 2014, 59:382-386. [link]

140.

Zhai P. Gao Y., Li W., Zhu Q. Ma D.*
Catalytic Oxidation of benzylamine over Layered Carbon Catalyst
China Science, 2014, (01):131-137. [link]

139.

Wang H., Zhou W., Liu J. X., Si R., Sun G., Zhong M. Q., Su H. Y., Zhao H. B., Jose A. Rodriguez, Stephen J. Pennycook, Juan Carlos Idrobo, Li W. X.*, Kou Y.*, Ma D.*
Platinum-modulated cobalt nanocatalysts for low-temperature aqueous-phase Fischer-Tropsch synthesis
Journal of the American Chemical Society, 2013, 135(10):4149-58. [link]

138.

Gao Y. J., Hu G., Zhong J., Shi Z. J., Zhu Y. S., Su D. S.*, Wang J. G.*, Bao X. H. and Ma D.*
N-doped sp2 carbon with superior performance in selective oxidation catalysis
Angew. Chem.-Int. Edit., 2013, 52, 2109. [link]

137.

Yang J. H., Sun G., Gao Y. J., Zhao H. B., Tang P., Tan J., Lu A. H., Ma D.*
Direct catalytic oxidation of benzene to phenol over metal-free graphene-based catalyst
Energy Environ. Sci., 2013, 6(3):793-798. [link]

136.

Li J., Liu L. T., Liu Y., Li M. Z., Zhu Y. H., Liu H. C., Kou Y., Zhang J. Z., Han Y.*, Ma D.*
Direct conversion of cellulose using carbon monoxide and water on a Pt–Mo2C/C catalyst
Energy Environ. Sci., 2013, 7(1):393-398. [link]

135.

Zhao H. B., Zhu Q. J., Gao Y. J., Zhai P., Ma D.*
Iron oxide nanoparticles supported on pyrolytic graphene oxide as model catalysts for Fischer Tropsch synthesis
Applied Catalysis A-General, 2013, 456:233-299. [link]

134.

Zhai P., Sun G., Zhu Q. J., Ma D.*
Fischer-Tropsch synthesis nanostructured catalysts: understanding structural characteristics and catalytic reaction
Nanotechnology Reviews, 2013, 2(5):547-576. [link]

133.

Yin Z., Chi M. F., Zhu Q. J., Ma D.*, Sun J. M., Bao X. H.
Supported bimetallic PdAu nanoparticles with superior electrocatalytic activity towards methanol oxidation
Journal of Materials Chemistry A, 2013, 1:9157-9163. [link]

132.

Liu X. Y., Wei W., Huang S. J., Lin S. S, Zhang X., Zhang C. M., Du Y. G., Ma G. H., Li M., Stephen Mann., Ma D.*
Bio-inspired protein-gold nanoconstruct with core-void-shell structure: beyond a chemo drug carrier
Journal of Materials Chemistry B, 2013, 1(25):3136-3143. [link]

131.

Yang J. H., Ma D.*
Graphene-supported Pd nanoparticles: microwave-assisted synthesis and as microwave-active selective hydrogenation catalysts
RSC Advances, 2013, 3(26):10131-10134. [link]

130.

Yang J. H., Zhao B., Zhao H. B., Lu A. H., Ma D.*
Graphene-supported Iron Phosphide Nanoparticles for Fischer-Tropsch Synthesis
Acta Chimica Sinica, 2013, 71(10):1365-1368. [link]

129.

Yang J. H., Gao Y. J., Zhang W., Tang P., Tan J., Lu A. H., Ma D.*
Cobalt Phthalocyanine–Graphene Oxide Nanocomposite: Complicated Mutual Electronic Interaction
Journal of Physical Chemistry C, 2013, 117(8):10131-10134. [link]

128.

Tan J.*, Yang J. H.*, Liu X. H., Yang F., Li X. Y., Ma D.
Electrochemical oxidation of methanol on mesoporous nickel phosphates and Si-incorporated mesoporous nickel phosphates
Electrochemistry Communications, 2013, 27:141-143. [link]

127.

Guo Y. Y., Chen L. M.*, Ma D., Ye D. Q., Huang B. C.
Promotion effect of adsorbed water/OH on the catalytic performance of Ag/activated carbon catalysts for CO preferential oxidation in excess H₂
Journal of Energy Chemistry, 2013, 22(4):591-598. [link]

126.

Yang J. H., Zhang K. T., Ma D.*
Gourd-shaped silver nanoparticle-graphene composite for electrochemical oxidation of glucose
Materials Letters, 2013, 97:133-136. [link]

125.

Yue Z. G., Lv P. P., Yue H., Gao Y. J., Ma D., Wei W.*, Ma G. H.*
Inducible graphene oxide probe for high-specific tumor diagnosis
Chemical Communications, 2013, 49(37):3902-3904. [link]

124.

Liu C., Tang P., Chen A. B.*, Hu Y. Q., Yu Y. F., Lv H. J., Ma D.
One-step assembly of N-doped partially graphitic mesoporous carbon for nitrobenzene reduction
Materials Letters, 2013, 108:285-288. [link]

123.

Yang J., Zhao B., Zhao HB., Lu A., Ma D.
Graphene-supported iron phosphide nanoparticles for Fischer Tropsch synthesis
Acta Chimica Sinica, 2013, (10):1365-1368. [link]

122.

Yang C., Zhao H. B., Hou Y. L.*, Ma D.*
Fe₅C₂ Nanoparticles: A Facile Bromide-induced Synthesis and as an Active Phase for Fischer-Tropsch Synthesis (FTS)
J. Am. Chem. Soc., 2012, 124, 15814-15821. [link]

121.

Yin Z., Zhou W., Gao Y. J., Ma D.*, Kiely Christopher J., Bao X. H.*
Supported Pd-Cu Bimetallic Nanoparticles That Have High Activity for the Electrochemical Oxidation of Methanol
Chemistry - A European Journal, 2012, 18(16):4887-4893. [link]

120.

Wang C., Zhao H. B., Wang H., Liu L. T., Xiao C. X., Ma D.*
The effects of ionic additives on the aqueous-phase Fischer-Tropsch synthesis with a ruthenium nanoparticle catalyst
Catalysis Today, 2012, 183(1):143-153. [link]

119.

Liu X. Y., Wei W., Yuan Q., Zhang X., Li N., Du Y. G., Ma G. H., Yan Chunhua, Ma D.*
Apoferritin-CeO₂ nano-truffle that has excellent artificial redox enzyme activity
Chemical Communications, 2012, 48(26):3155-3157. [link]

118.

Yang J. H., Mu D., Gao Y. J., Tan J., Lu A. H., Ma D.*
Cobalt phthalocyanine-graphene complex for electro-catalytic oxidation of dopamine
Journal of Natural Gas Chemistry, 2012, 21(3):265-269. [link]

117.

Liu L. T., Sun G., Wang C., Yang J. H., Xiao C. X., Wang H., Ma D.*
Kou Y. Aqueous phase Fischer-Tropsch synthesis in a continuous flow reactor
Catalysis Today, 2012, 183(1):136-142. [link]

116.

Zhang W., Liu X. Y., Walsh Dominic, Yao S. Y., Kou Y., Ma D.*
Caged-Protein-Confined Bimetallic Structural Assemblies with Mimetic Peroxidase Activity
Small, 2012, 8(19):2948-2953. [link]

115.

Zhang W. W., Qu Z. P.*, Li X. Y., Wang Y., Ma D., Wu J. J.
Comparison of dynamic adsorption/desorption characteristics of toluene on different porous materials
Journal of Environmental Sciences, 2012, 24(3):520-528. [link]

114.

Chen L. M.*, Ma D., Zhang Z., Guo Y. Y., Ye D. Q., Huang B. C.
Synergistic Effect of a Carbon Black Supported PtAg Non-Alloy Bimetal Nanocatalyst for CO Preferential Oxidation in Excess Hydrogen
Chemcatchem, 2012, 4(12):1960-1967. [link]

113.

112.

Chen L. M.*, Ma D., Zhang Z., Guo Y. Y., Ye D. Q., Huang B. C.
Low Pt Loading High Catalytic Performance of PtFeNi/Carbon Nanotubes Catalysts for CO Preferential Oxidation in Excess Hydrogen I: Promotion Effects of Fe and/or Ni
Catalysis Letters, 2012, 142(8):975-983. [link]

111.

Yue H., Wei W., Yue Z. G., Wang B., Luo N. N., Gao Y. J., Ma D., Ma G. H.*, Su Z. G.*
The role of the lateral dimension of graphene oxide in the regulation of cellular responses
Biomaterials, 2012, 33(16):4013-4021. [link]

110.

Liu L. T., Zhang B., Li J., Ma D., Kou Y.*
Selective Degradation of Organosolv Lignin over Noble Metal Catalyst in a Two-Step Process
Acta Physico-Chimica Sinica, 2012, 28(10):2343-2348. [link]

109.

Yang J. H., Tan J.*, Yang F., Li X. Y., Liu X. H., Ma D.
Electro-oxidation of methanol on mesoporous nickel phosphate modified GCE
Electrochemistry Communications, 2012, 23:13-16. [link]

108.

Gao Y. J., Ma D.*, Hu G., Zhai P., Bao X. H., Zhu B., Zhang B. S., Su D. S.*
Layered-Carbon-Stabilized Iron Oxide Nanostructures as Oxidation Catalysts
Angewandte Chemie International Edition, 2011, 50(43):10236–10240. [link]

107.

Gao Y. J., Hu G., Zhang W., Ma D.*, Bao X. H.
pi-pi Interaction intercalation of layered carbon materials with metallocene
Dalton Transactions, 2011, 40(17):4542-4547. [link]

106.

Gao Y. J., Ma D.*, Wang C. L., Guan J., Bao X. H.*
Reduced graphene oxide as a catalyst for hydrogenation of nitrobenzene at room temperature
Chemical Communications, 2011, 47(8):2432-2434. [link]

105.

Liu X. Y., Wei W., Wang C. L., Yue H., Ma D.*, Zhu C., Ma G. H., Du Y. G.
Apoferritin-camouflaged Pt nanoparticles: surface effects on cellular uptake and cytotoxicity
Journal of Materials Chemistry, 2011, 21(20):7105-7110. [link]

104.

Jiang F., Zhu Q. J., Ma D.*, Liu X. M., Han X. W.
Direct conversion and NMR observation of cellulose to glucose and 5-hydroxymethylfurfural (HMF) catalyzed by the acidic ionic liquids
Journal of Molecular Catalysis A: Chemical, 2011, 334(1-2):8-12. [link]

103.

Liu X. Y., Ye Z. Q., Wei W., Du Y. G., Yuan J. L.*, Ma D.*
Artificial luminescent protein as a bioprobe for time-gated luminescence bioimaging
Chemical Communications, 2011, 47(28):8139-8141. [link]

102.

Ma D.*
An Overview of Catalysis-Related Papers Published in Acta Physico-Chimica Sinica in the Year 2010
Chinese Journal of Catalysis, 2011, 32(12):1880-1884. [link]

101.

Qu Z. P.*, Zhang X. D., Chen D., Li X. Y., Wen M., Wang Y., Ma D., Wu J. J.
Effect of CeO(₂) on the Silver Species and Its Catalytic Activity for CO Oxidation
Chemical Journal of Chinese Universities-Chinese, 2011, 32(7):1605-1609. [link]

100.

Fu Q., Li W. X., Yao Y. X., Liu H. Y., Su H. Y., Ma D., Gu X. K., Chen L. M., Wang Z., Zhang H., Wang B., Bao X. H.*
Interface-Confined Ferrous Centers for Catalytic Oxidation
Science, 2010, 328(5982):1141-1144. [link]

99.

Gu L. J., Ma D.*, Hu G., Wu J. J., Wang H. X., Sun C. Y., Yao S. D., Shen W. J., Bao X. H.*
Fabrication and catalytic tests of MCM-22/silicon carbide structured catalysts
Dalton Transactions, 2010, 39(40):9705-9710. [link]

98.

Gu L. J., Ma D.*, Yao S. D., Wang C. L., Shen W. J., Bao X. H.*
Structured zeolites catalysts with hierarchical channel structure
Chemical Communications, 2010, 46(10):1733-1735. [link]

97.

Yin Z., Ma D.*, Bao X. H.*
Emulsion-assisted synthesis of monodisperse binary metal nanoparticles
Chemical Communications, 2010, 46(8):1344-1346. [link]

96.

Wu S. C., Wang C. L., Gao Y. J., Zhang S. C., Ma D.*, Zhao Z. B.
Production of 5-Hydroxymethylfurfural from Cellulose Catalyzed by Lewis Acid under Microwave Irradiation in Ionic Liquid
Chinese Journal of Catalysis, 2010, 31(9):1157-1161. [link]

95.

Fan Y. F., Wang C. L., Ma D.*, Bao X. H.*
Selective Oxidation of Methane to Methanol over Palladium-Metallophthalocyanine Composite Catalysts at Room Temperature
Chinese Journal of Catalysis, 2010, 31(3):302-306. [link]

94.

Zhang X. D., Qu Z. P.*, Li X. Y., Wen M., Quan X., Ma D., Wu J. J.
Studies of silver species for low-temperature CO oxidation on Ag/SiO(₂) catalysts
Separation and Purification Technology, 2010, 72(3):395-400. [link]

93.

Cai Z. P., Wang H., Xiao C. X., Zhong M. Q., Ma D., Kou Y.*
Hydroformylation of 1-hexene over ultrafine cobalt nanoparticle catalysts
Journal of Molecular Catalysis A: Chemical, 2010, 330(1-2):94-98. [link]

92.

Fan Y. F., Ma D.*, Bao X. H.*
Acetic Acid from the Carbonylation of Chloride Methane Over Rhodium Based Catalysts
Catalysis Letters, 2009, 130(3-4):286-290.

91.

Li N., Zong M. H.*, Ma D.*
Regioselective acylation of nucleosides and their analogs catalyzed by Pseudomonas cepacia lipase: enzyme substrate recognition
Tetrahedron, 2009, 65(5):1063-1068.

90.

Li N., Zong M. H.*, Ma D.*
Unexpected reversal of the regioselectivity in Thermomyces lanuginosus lipase-catalyzed acylation of floxuridine
Biotechnology Letters, 2009, 31(8):1241-1244.

89.

Liu H. Y., Ma D.*, Bao X. H.*
Single-crystal Pt nanorods with tunable lengths fabricated by a simple glycol-assisted vacuum impregnation method
Dalton Transactions, 2009, (11):1894-1896.

88.

Li N., Zong M. H.*, Ma D.*
Thermomyces lanuginosus lipase-catalyzed regioselective acylation of nucleosides: Enzyme substrate recognition
Journal of Biotechnology, 2009, 140(3-4):250-253.

87.

Gu L. J., Ma D.*, Yao S. D., Liu X. M., Han X. W., Shen W. J., Bao X. H.*
Template-Synthesized Porous Silicon Carbide as an Effective Host for Zeolite Catalysts
Chemistry - A European Journal, 2009, 15(48):13449-13455.

86.

Yin Z., Zheng H. J., Ma D.*, Bao X. H.*
Porous Palladium Nanoflowers that Have Enhanced Methanol Electro-Oxidation Activity
Journal of Physical Chemistry C, 2009, 113(3):1001-1005.

85.

Jiang F., Ma D.*, Bao X. H.
Acid Ionic Liquid Catalyzed Hydrolysis of Cellulose
Chinese Journal of Catalysis, 2009, 30(4):279-283.

84.

Qu Z. P.*, Tang X. L., Li X. Y., Chen K., Ma D.
Degradation of Methyl Orange over Fe(2+) Activated Sulphonated Carbon Catalyst
Chinese Journal of Catalysis, 2009, 30(2):142-146.

83.

Hu J. Z.*, Kwak Ja Hun, Wang Y., Peden Charles H. F.*, Zheng H., Ma D., Bao X. H.
Studies of the Active Sites for Methane Dehydroaromatization Using Ultrahigh-Field Solid-State (95)Mo NMR Spectroscopy
Journal of Physical Chemistry C, 2009, 113(7):2936-2942.

82.

Wang C. L., Ma D., Bao X. H.*
Carbon Nanomaterials and Their Heterogeneous Catalytic Application
Progress in Chemistry, 2009, 21(9):1705-1721.

81.

Wang C. L., Ma D.*, Bao X. H.*
Transformation of Biomass into Porous Graphitic Carbon Nanostructures by Microwave Irradiation
Journal of Physical Chemistry C, 2008, 112(45):17596-17602.

80.

Liu Y., Ma D.*, Blackley Ross A., Zhou W. Z.*, Han X. W., Bao X. H.
Synthesis and characterization of gibbsite nanostructures
Journal of Physical Chemistry C, 2008, 112(11):4124-4128.

79.

Li N., Zong M. H.*, Ma D.*
Regioselective Acylation of Nucleosides Catalyzed by Candida Antarctica Lipase B: Enzyme Substrate Recognition
European Journal of Organic Chemistry, 2008, (32):5375-5378.

78.

Zheng H., Ma D., Bao X. H.*, Hu J. Z., Kwak Ja Hun., Wang Y., Peden Charles H. F.
Direct observation of the active center for methane dehydroaromatization using an ultrahigh field Mo-95 NMR spectroscopy
Journal of the American Chemical Society, 2008, 130(12):3722.

77.

Liu Y., Ma D.*, Han X. W., Bao X. H.*
Frandsen Wiebke, Wang D., Su D. S. Hydrothermal synthesis of microscale boehmite and gamma nanoleaves alumina
Materials Letters, 2008, 62(8-9):1297-1301.

76.

Li N., Ma D.*, Zong M. H.*
Enhancing the activity and regioselectivity of lipases for 3-benzoylation of floxuridine and its analogs by using ionic liquid-containing systems
Journal of Biotechnology, 2008, 133(1):103-109.

75.

Liu H. Y., Ma D.*, Blackley Ross A., Zhou W. Z., Bao X. H.*
Highly active mesostructured silica hosted silver catalysts for CO oxidation using the one-pot synthesis approach
Chemical Communications, 2008, (23):2677-2679.

74.

Chen K., Ma D.*, Huang W. X., Bao X. H.
Hydrothermal syntheses of hollow carbon nano-materials by Ostwald ripening
Chemical Journal of Chinese Universities-Chinese, 2008, 29(8):1501-1504.

73.

Chen K., Wang C. L., Ma D.*, Huang W. X., Bao X. H.*
Graphitic carbon nanostructures via a facile microwave-induced solid-state process
Chemical Communications, 2008, (24):2765-2767.

72.

Yang G.*, Zhuang J. Q., Ma D., Lan X. J., Zhou L. J., Liu X. C., Han X. W., Bao X. H.*
A joint experimental-theoretical study on trimethylphosphine adsorption on the Lewis acidic sites present in TS-1 zeolite
Journal of Molecular Structure, 2008, 882(1-3):24-29.

71.

Li X. Y., Ma D., Bao X. H.*
Synthesis of Molybdenum Carbide Catalysts over Different Carbon Supports
Chinese Journal of Catalysis, 2008, 29(9):884-888.

70.

Sun J. M., Ma D., Zhang H., Jiang F., Cui Y., Guo R., Bao X. H.*
Organic molecule-modulated phase evolution of inorganic mesostructures
Langmuir, 2008, 24(6):2372-2380.

69.

Yang G.*, Lan X. J., Zhuang J. Q., Ma D. Zhou L. J., Liu X. C., Han X. W., Bao X. H.*
Acidity and defect sites in titanium silicalite catalyst
Applied Catalysis A: General, 2008, 337(1):58-65.

68.

Liu L., Ma D., Zheng H., Li X. J., Cheng M. J., Bao X. H.*
Synthesis and characterization of microporous carbon nitride
Microporous and Mesoporous Materials, 2008, 110(2-3):216-222.

67.

Li X. Y., Ma D., Bao X. H.*
Dispersion of Pt catalysts supported on activated carbon and their catalytic performance in methylcyclohexane dehydrogenation
Chinese Journal of Catalysis, 2008, 29(3):259-263.

66.

Li N., Zong M. H.*, Liu X. M., Ma D.*
Regioselective synthesis of 3-O-caproyl-floxuridine catalyzed by Pseudomonas cepacia lipase
Journal of Molecular Catalysis B: Enzymatic, 2007, 47(1-2):6-12.

65.

Chen L. M., Ma D., Bao X. H.*
Hydrogen treatment-induced surface reconstruction: Formation of superoxide species on activated carbon over Ag/activated carbon catalysts for selective oxidation of CO in H-2-rich gases
Journal of Physical Chemistry C, 2007, 111(5):2229-2234.

64.

Sun J. M., Ma D., Zhang H., Bao X. H.*
Weinberg Gisela., Su D. S. Macro-mesoporous silicas complex and the carbon replica
Microporous and Mesoporous Materials, 2007, 100(1-3):356-360.

63.

Li X. Y., Ma D., Chen L. M., Bao X. H.*
Fabrication of molybdenum carbide catalysts over multi-walled carbon nanotubes by carbothermal hydrogen reduction
Catalysis Letters, 2007, 116(1-2):63-69.

62.

Zhou D. H.*, Zhang. Y., Zhu H. Y., Ma D., Bao X. H.*
The structure, stability, and reactivity of mo-oxo species in H-ZSM5 zeolites: Density functional theory study
Journal of Physical Chemistry C, 2007, 111(5):2081-2091.

61.

Sun J. M., Ma D., Zhang H., Liu X. M., Han X. W., Bao X. H.* Weinberg Gisela., Pfaender Norbert., Su D. S.
Toward monodispersed silver nanoparticles with unusual thermal stability
Journal of the American Chemical Society, 2006, 128(49):15756-15764.

60.

Sun J. M., Ma D., Zhang H., Wang C. L., Bao X. H., Su D. S., Klein-Hoffmann A., Weinberg G., Mann S.
Phase evolution in the alkane-P123-water-TEOS quadru-component system: a feasible route to differentcomplex mesostructured materials
Journal of Materials Chemistry, 2006, 16(16):1507-1510.

59.

Sun J. M., Zhang H., Tian R. J., Ma D.*, Bao X. H.*, Su D. S., Zou H. F.
Ultrafast enzyme immobilization over large-pore nanoscale mesoporous silica particles
Chemical Communications, 2006, (12):1322-1324.

58.

Zheng H., Ma D., Liu X. M., Zhang W. P., Han X. W., Xu Y. D., Bao X. H.*
Methane dehydroaromatization over Mo/HZSM-5: A study of catalytic process
Catalysis Letters, 2006, 111(1-2):111-114.

57.

Liu L., Ma D., Chen H. Y., Zheng H., Cheng M. J., Xu Y. D., Bao X. H.*
Methane dehydroaromatization on Mo/HMCM-22 catalysts: effect of SiO2/Al2O3 ratio of HMCM-22 zeolite supports
Catalysis Letters, 2006, 108(1-2):25-30.

56.

Chen L. M., Ma D., Li X. Y., Bao X. H.*
Silver catalysts supported over activated carbons for the selective oxidation of CO in excess hydrogen: effects of different treatments on the supports
Catalysis Letters, 2006, 111(3-4):133-139.

55.

Chen L. M., Ma D., Barbara Pietruszka, Bao X. H.*
Carbon-Supported Silver Catalysts for CO Selective Oxidation in Excess Hydrogen
Journal of Natural Gas Chemistry, 2006, (03):181-190.

54.

Tian R. J., Sun J. M., Zhang H., Ye M. L., Xie C. H., Dong J., Hu J. W., Ma D., Bao X. H., Zou H. F.*
Large-pore mesoporous SBA-15 silica particles with submicrometer size as stationary phases for high-speed CEC separation
Electrophoresis, 2006, 27(4):742-748.

53.

Liu L., Cheng M. J., Ma D., Hu G., Pan X. L., Bao X. H.*
Synthesis, characterization, and catalytic properties of MWW zeolite with variable Si/Al ratios
Microporous and Mesoporous Materials, 2006, 94(1-3):304-312.

52.

Zhang H., Sun J. M., Ma D., Weinberg Gisela., Su D. S., Bao X. H.*
Engineered complex emulsion system: Toward modulating the pore length and morphological architecture of mesoporous silicas
Journal of Physical Chemistry B, 2006, 110(51):25908-25915.

51.

Ma D.*, Zhu Q. J., Wu Z. L., Zhou D. H., Shu Y. Y., Xin Q., Xu Y. D., Bao X. H.*
The synergic effect between Mo species and acid sites in Mo/HMCM-22 catalysts for methane aromatization
Physical Chemistry Chemical Physics, 2005, 7(16):3102-3109.

50.

Yang J*, Janik M. J., Ma D., Zheng A. M., Zhang M. J., Neurock M.*, Davis R. J., Ye C. H., Deng F.*
Location, acid strength, and mobility of the acidic protons in Keggin 12-H3PW12O40: A combined solid-state NMR spectroscopy and DFT quantum chemical calculation study
Journal of the American Chemical Society, 2005, 127(51):18274-18280.

49.

Sun J. M., Zhang H., Ma D., Chen Y. Y., Bao X. H.*, Klein-Hoffmann A., Pfander N., Su D. S.
Alkanes-assisted low temperature formation of highly ordered SBA-15 with large cylindrical mesopores
Chemical Communications, 2005, (42):5343-5345.

48.

Zhou S. T., Zhao H., Ma D., Miao S. J., Cheng M. J., Bao X. H.*
The effect of Rh particle size on the catalytic performance of porous silica supported rhodium catalysts for CO hydrogenation
Z. Phys. Chem., 2005, 219(7):949-961.

47.

Gonzalez-Cortes S. L., Xiao T. C., York APE., Ma D., Al-Megren H., Green MLH.*
Characterization and catalytic performance of Co, Ni and W trimetallic carbides
Reaction Kinetics and Catalysis Letters, 2005, 84(1):21-28.

46.

Zhuang J., Yang G., Ma D.*, Liu X., Han X., Bao X.*, Mueller U.
In-situ Magnetic Resonance Investigation on the Mechanism of Styrene Oxidation over TS-1 Zeolites
Angew. Chem. Int. Ed. Engl, 43(2004)6377.

45.

Hu G. , Ma D.*, Liu L., Cheng M., Bao X.*
In-situ Assemblage of Zeolitic Building Blocks into High-order Structures
Angew. Chem. Int. Ed. Engl, 43(2004)3452.

44.

Zhuang J., Ma D., Yan Z., Deng F., Liu X., Han X., Bao X.*, Liu X. W., Guo X. and Wang X.
Solid State MAS NMR detection of the oxidation center in TS-1 zeolite by in-situ probe reaction
J. Catal., 2004,221, 670.

43.

Ma D., Li M., Patil AJ., Mann S.*
Fabrication of protein/silica core-shell nanoparticles by microemulsion-based molecular wrapping
Advanced Materials, 2004, 16(20):1838.

42.

Ma D., Xiao T. C., Xie S. H., Zhou W. Z., Gonzalez-Cortes S. L., Green MLH.*
Synthesis and structure of bimetallic nickel molybdenum phosphide solid solutions
Chemistry of Materials, 2004, 16(14):2697-2699.

41.

Zhang H., Sun J. M., Ma D., Bao X. H.*
Klein-Hoffmann A., Weinberg G., Su D. S., Schlogl R., Unusual mesoporous SBA-15 with parallel channels running along the short axis
Journal of the American Chemical Society, 2004, 126(24):7440-7441.

40.

Zhuang J. Q., Ma D., Gang Y., Yan Z. M., Liu X. M., Liu X. C., Han X. W., Bao X. H.*, Peng, X, Liu Z. M.
Solid-state MAS NMR studies on the hydrothermal stability of the zeolite catalysts for residual oil selective catalytic cracking
Journal of Catalysis, 2004, 228(1):234-242.

39.

Wang Y., Zhuang J., Yang G., Zhou D., Ma D., Han X., and Bao X.*
Study on the external surface acidity of MCM-22 zeolite: Theoretical calculation and 31P MAS NMR
J. Phys. Chem., B, 2004, 108,1386.

38.

Zhuang J. Q., Ma D., Yan Z. M., Liu X. M., Han X. W., Bao X. H.*, Zhang Y. H., Guo X. W., Wang X. S.
Effect of acidity in TS-1 zeolites on product distribution of the styrene oxidation reaction
Applied Catalysis A: General, 2004, 258(1):1-6.

37.

Wang Y.*, Zhou D. H., Yang G., Liu X. C., Ma D., Liang D. B., Bao X. H.*
Density functional theory study of proton hopping in MCM-22 zeolite
Chemical Physics Letters, 2004, 388(4-6):363-366.

36.

Miao S. J., Wang Y., Ma D., Zhu Q. J., Zhou S. T., Su L. L., Tan D. L., Bao X. H.*
Effect of Ag+ cations on nonoxidative activation of methane to C-2-hydrocarbons
Journal of Physical Chemistry B, 2004, 108(46):17866-17871.

35.

Hu G., Cheng M., Ma D., Bao X.*
Synthesis of Highly-ordered Carbon Materials with Extra-large Pores by a Template-free Solvothermal Route
Chem. Mater., 2003,15, 1470.

34.

Zhou D. H.*, Ma D., Wang Y., Liu X. C., Bao X. H.
Study with density functional theory method C-H bond activation on the MoO2/HZSM-5 on methane active center
Chemical Physics Letters, 2003, 373(1-2):46-51.

33.

Yan Z. M., Ma D., Zhuang J. Q., Liu X. C., Liu X. M., Han X. W., Bao X. H.* Chang F. X., Xu L., Liu Z. M.
On the acid-dealumination of USY zeolite: a solid state NMR investigation
Journal of Molecular Catalysis A: Chemical, 2003, 194(1-2):153-167.

32.

Hu G., Cheng M. J., Ma D., Bao X. H.*
Synthesis of carbon nanotube bundles with mesoporous structure by a self-assembly solvothermal route
Chemistry of Materials, 2003, 15(7):1470-1473.

31.

Ma D., Han X. W., Xie S. J., Bao X. H.*, Hu H. B., Au-Yeung SCF.*
An investigation of the roles of surface aluminum and acid sites in the zeolite MCM-22
Chemistry - A European Journal, 2002, 8(1):162-170.

30.

Ma D., Lu Y., Su L. L., Xu Z. S., Tian Z. J., Xu Y., Lin L.W.*, Bao X. H.*
Remarkable improvement on the methane aromatization reaction: A highly selective and coking-resistant catalyst
Journal of Physical Chemistry B, 2002, 106(34):8524-8530.

29.

Ma D., Wang D. Z., Su L. L., Shu Y. Y., Xu Y., Bao X. H.*
Carbonaceous deposition on Mo/HMCM-22 catalysts for methane aromatization: A TP technique investigation
Journal of Catalysis, 2002, 208(2):260-269.

28.

Ma D.*, Han X. W., Zhou D. H., Yan Z. M., Fu R. Q., Xu, Y,Bao X. H.*, Hu H. B., Au-Yeung SCF.*
Towards guest-zeolite interactions: An NMR spectroscopic approach
Chemistry - A European Journal, 2002, 8(19):4557-4561.

27.

Yan Z. M., Ma D., Zhuang J. Q., Liu X. C., Liu X. M., Han X. W., Bao X. H.*
In situ solid state NMR observation of the methanol-to-hydrocarbons (MTH) process over nanosized and microsized HZSM-5 zeolites
Physical Chemistry Chemical Physics, 2002, 4(18):4602-4607.

26.

Hu G., Ma D., Cheng M., Liu L., Bao X. H.*
Direct synthesis of uniform hollow carbon spheres by a self-asembly template approach
Chemical Communications, 2002, (17):1948-1949.

25.

Yang J., Ma D., Deng F.*, Luo Q., Zhang M. J., Bao X. H. Ye C. H.
Solid state C-13 NMR studies of methane dehydroaromatization reaction on Mo/HZSM-5 and W/HZSM-5 catalysts
Chemical Communications, 2002, (24):3046-3047.

24.

Shu Y. Y., Ma D., Xu L. Y., Bao X. H., Xu Y. D.*
Effect of pore ring number of zeolites on catalytic performance of Mo/Zeolite in methane aromatization under non-oxygen condition
Chinese Journal of Catalysis, 2002, 23(1):24-28.

23.

Su L. L., Ma D., Liu X. M., Xu Y. D., Bao X. H.*
Methane aromatization on Re/HZSM-5 system under non-oxygen condition
Chinese Journal of Catalysis, 2002, 23(1):41-45.

22.

Ma D., Shu Y. Y., Han X. W., Liu X. M., Xu Y. D., Bao X. H.*
Mo/HMCM-22 catalysts for methane dehydroaromatization: A multinuclear MAS NMR study
Journal of Physical Chemistry B, 2001, 105(9):1786-1793.

21.

Ma D., Deng F., Fu R. Q., Han X. W., Bao X. H.*
MAS MMR studies on the dealumination of Zeolite MCM-22
Journal of Physical Chemistry B, 2001, 105(9):1770-1779.

20.

Ma D., Shu Y. Y., Zhang C. L., Zhang W. P., Han Y. D., Xu Y. D.*, Bao X. H.*
Synthesis and characterization of galloaluminosilicate/gallosilicalite (MFI) and their evaluation in methane dehydro-aromatization
Journal of Molecular Catalysis A: Chemical, 2001, 168(1-2):139-146.

19.

Lu Y., Ma D., Xu Z. S., Tian Z. J., Bao X. H.*, Lin L. W.*
A high coking-resistance catalyst for methane aromatization
Chemical Communications, 2001, (20):2048-2049.

18.

Zhou D. H.*, Ma D., Liu X. C., Bao X. H.
Study with density functional theory method on methane dehydro-aromatization over Mo/HZSM-5 catalysts I: Optimization of active Mo species bonded to ZSM-5 zeolite
Journal of Chemical Physics, 2001, 114(20):9125-9129.

17.

Zhou D. H., Ma D., Liu X. C., Bao X. H.*
A simulation study on the absorption of molybdenum species in the channels of HZSM-5 zeolite
Journal of Molecular Catalysis A: Chemical, 2001, 168(1-2):225-232.

16.

Shu Y. Y., Tian B. L., Ma D., Bao X. H., Xu Y. D.*
Methane dehydro-aromatization over Mo/HZSM-5 catalyst prepared by different methods
Chinese Journal of Catalysis, 2001, 22(2):109-112.

15.

Ma D., Su L. L., Shu Y. Y., Xu Y. D., Bao X. H.*
Formation of active phase of the catalyst for the reaction of methane aromatization
Chemical Journal of Chinese Universities-Chinese, 2001, 22(9):1535-1538.

14.

Ma D., Shu Y. Y., Zhang W. P., Han Y. D., Xu Y. D., Bao X. H.*
In situ H-1 MAS NMR spectroscopic observation of proton species on a Mo-modified HZSM-5 zeolite catalyst for the dehydroaromatization of methane
Angewandte Chemie International Edition, 2000, 39(16):2928-2931.

13.

Ma D., Shu Y. Y., Cheng M. J., Xu Y. D., Bao, X.H.*
On the induction period of methane aromatization over Mo-based catalysts
Journal of Catalysis, 2000, 194(1):105-114.

12.

Ma D., Shu Y. Y., Bao X. H., Xu Y. D.*
Methane dehydro-aromatization under nonoxidative conditions over Mo/HZSM-5 catalysts: EPR study of the Mo species on/in the HZSM-5 zeolite
Journal of Catalysis, 2000, 189(2):314-325.

11.

Ma D., Zhang W. P., Shu Y. Y., Liu X. M., Xu Y. D., Bao X. H.*
MAS NMR, ESR and TPD studies of Mo/HZSM-5 catalysts: evidence for the migration of molybdenum species into the zeolitic channels
Catalysis Letters, 2000, 66(3):155-160.

10.

Shu Y. Y., Ma D., Liu X. C., Han Y. D., Xu Y. D., Bao X. H.*
An MAS NMR study on the Mo-modified phosphoric rare earth (HZRP-1) penta-sil zeolite catalyst
Journal of Physical Chemistry B, 2000, 104(34):8245-8249.

Shu Y. Y., Ma D., Xu L. Y., Xu Y. D.*, Bao X. H.*
Methane dehydro-aromatization over Mo/MCM-22 catalysts: a highly selective catalyst for the formation of benzene
Catalysis Letters, 2000, 70(1-2):67-73.

Shu Y. Y., Ma D., Bao X. H., Xu Y. D.*
Methane dehydro-aromatization over a Mo/phosphoric rare earth-containing penta-sil type zeolite in the absence of oxygen
Catalysis Letters, 2000, 66(3):161-167.

Wang Y., Song Z., Ma D., Luo H. Y., Liang D. B., Bao X. H.*
Interactions among Rh, Mn and Li components in the Rh-based catalysts
Studies in Surface Science and Catalysis, 2000, 130:2279-2284.

Li S., Ma D., Kan Q. B., Wu P., Peng, Y. B., Zhang C. L., Li, M. S., Fu Y. H., Shen J. Y., Wu T. H.*, Bao X. H.
Methane aromatization in the absence of oxygen over Mo/H[B]ZSM-5 catalysts
Reaction Kinetics and Catalysis Letters, 2000, 70(2):349-356.

Zhang, W. P., Ma D., Liu X. C., Liu X. M., Bao X. H.*
Perfluorotributylamine as a probe molecule for distinguishing internal and external acidic sites in zeolites by high-resolution H-1 MAS NMR spectroscopy
Chemical Communications, 1999, (12):1091-1092.

Zhang W. P., Ma D., Han X. W., Liu X. M., Bao X. H., Guo, X. W.*, Wang X. S.*
Methane dehydro-aromatization over Mo/HZSM-5 in the absence of oxygen: A multinuclear solid-state NMR study of the interaction between supported Mo species and HZSM-5 zeolite with different crystal sizes
Journal of Catalysis, 1999, 188(2):393-402.

Wang Y., Song Z., Ma D., Luo H. Y., Liang D. B., Bao X. H.*
Characterization of Rh-based catalysts with EPR, TPR, IR and XPS
Journal of Molecular Catalysis A: Chemical, 1999, 149(1-2):51-61.

Zhang W., Ma D., Han X., Bao X., Xu N.
The Development of 1-Butene Oligomerization and its Utilization
Chinese Chemical World, 1999, 9,451-453.

Shu Y., Ma D.,, Tian B., Xu Y., Bao X.*
Methane Dehydrogenation and Aromatization over Mo/Hzrp-1 Catalyst in the Absence of Oxygen I. Catalytic Evaluation Including Formation of Coke over Mo/HZRP-1 Catalyst
Chin. J. Catal., 1999, 20, 279-284