期刊论文(外文)——2015年 期刊论文(外文)——2015年

最小化 最大化

1. S.C. Wu, G. D. Wen, R. Schlo¨gl and D.S.Su* Carbon nanotubes oxidized by a green method as efficient metal-free catalysts for nitroarene reduction Phys. Chem. Chem. Phys., 17(2015)1567-1571

2. J. Wang, H.Y. Liu, J.Y. Diao, X. M. Gu, H. H.Wang, J. F. Rong, B.N. Zong, and D. S.Su* Size-controlled nitrogen-containing mesoporous carbonnanospheres by one-step aqueous self-assembly strategy Journal of Materials Chemistry A 3(2015)2305-2313

3. Y.X. Ding, X.Y. Sun, L.Y. Zhang, S.J. Mao, Z.L. Xie, Z.-W. Liu, and D. S. Su* Entrapping an Ionic Liquid with Nanocarbon: The Formation of a Tailorable and Functional Surface Angew. Chem. Int. Ed. 54(2015)231-235

4. Y. X. Ding, B. S. Zhang, N. Gupta and D. S. Su* Heterogenization of homogenous reaction system on carbon surface with ionic liquid as mediator Green Chemistry 17(2015)1107-1112

5. J. Y. Diao, H.Y. Liu, J. Wang, Z. B. Feng, T. Chen, C. X. Miao, W. M. Yang and D. S. Su* Porous graphene-based material as an efficient metal free catalyst for the oxidative dehydrogenation of ethylbenzene to styrene Chem. Commun. 51(2015)3423-3425

6. B. Li, X. Y. Sun and D. S. Su* Calibration of the basic strength of the nitrogen groups on the nanostructured carbon materials Phys. Chem. Chem. Phys., 17(2015)6691-6694

7. Z. –L. Xie* and D. S. Su*.Ionic Liquid Based Approaches to Carbon Materials Synthesis. Eur. J. Inorg. Chem. (2015) : 1137–1147

8. G. D. Wen, S. C. Wu, B. Li, C. L. Dai, and D. S. Su*. Active Sites and Mechanisms for Direct Oxidation of Benzene to Phenol over Carbon Catalysts.Angew. Chem. Int. Ed. 54(2015): 4105 –4109.

9. D.S. Su,* B. S. Zhang, and R. Schlögl. Electron Microscopy of Solid CatalystsTransforming from a Challenge to a Toolbox.Chem. Rev., 115(2015):2818-2882.

10. G. D. Wen, J.Y. Diao, S.C. Wu,W.M. Yang, R. Schlögl, and D. S. Su*. Acid Properties of Nanocarbons and Their Application in Oxidative Dehydrogenation. ACS Catalysis 5(2015): 3600-3608.

11. T.-Z. Hou, H.-J. Peng, J.-Q.Huang, Q. Zhang* and B. Li*. The formation of strong-couple interactions between nitrogen-doped graphene and sulfur/lithium (poly)sulfides in lithium-sulfur batteries. 2D Mater. 2 (2015) 014011

12. D.S. Su,*  Water Splitting by Carbon under Visible Light. Nat. Sci. Rev., 2(2015)138-139

13. Y.X. Zhang, C. L. Chen, L. X. Peng, Z. S. Ma, Y. J. Zhang*, H. H. Xia, A.L.Yang,L.Wang*, D.S.Su, and J.Zhang*,Carboxyl groups trigger the activity of carbon nanotube catalysts for the oxygen reduction reaction and agar conversion. Nano Res. 8(2015): 502–511.

14. X. Zhong, L.Liu,Y.Jiang,X. Wang, L. Wang, G. Zhuang,X. Li,D. Mei,J.-G.Wang,*and D.S.Su*, Synergistic Effect of Nitrogen in Cobalt Nitride and Nitrogen-Doped Hollow Carbon Spheres for the Oxygen Reduction Reaction. ChemCatChem 7(2015): 1826-1832.

15. X.Y. Sun, Y.X.Ding, B.S.Zhang, R.Huang, D.Chen, and D.S.Su*, Insight into the Enhanced Selectivity of Phosphate-modified Annealed Nanodiamond for Oxidative Dehydrogenation Reaction. ACS Catal. 5(2015): 2436-2444

16. X.Y.Sun, Y.X.Ding, B.S.Zhang, R.Huang and D.S.Su*, New insights into the oxidative dehydrogenation of propane on borate-modified nanodiamond. Chem. Commun. 51(2015)9145-9148

17. Y.M. Lin, S.C.Wu, W.Shi, B.S.Zhang, J.Wang, Y.A.Kim, M.Endod and D.S.Su*., Efficient and highly selective boron-doped carbon materials-catalyzed reduction of nitroarenes. Chem. Commun. 51(2015)13086-13089

18. Y.Han , Z.Wu , S. Xu , X.L. Chen , L. Wang , Y. Wang , W. Xiong , T. Han , W.G. Ye , J. Lin , Y. Cai , K. M. Ho , Y. He , D.S. Su , and N. Wang *, Probing Defect-Induced Midgap States in MoS 2 Through Graphene–MoS 2 Heterostructures. Adv. Mater. Interfaces 2(2015) 1500064(1-6).

19. Y.M. Lin, B. Li, Z.B. Feng, Y.A. Kim, M. Endo, and D. S. Su*. Efficient Metal-Free Catalytic Reaction Pathway for Selective Oxidation of Substituted Phenols. ACS Catal. 5(2015): 5921-5926.

20. R. Huang, C. H. Liang, D. S. Su*, B.N. Zong, J.F. Rong. The difference between borate and phosphate modified carbonnanotubes in isopentane oxidative dehydrogenation.. Catal. Today 249(2015): 161-166 

21. Z.X.Wu, W.L.Chen, H.Y.Liu, P.Zhai, C.X.Xiao, D.S.Su, H.C.Liu* and D. Ma*, Reconstruction of Rh nanoparticles in methanol oxidation reaction. Catal. Sci. & Technol., 5(2015): 4116–4122.

22. K.-F. Aguey-Zinsou,* Da-Wei Wang,* and Dang-Sheng Su*.  Chemistry, and Simulation for Future Energy Technology., ChemSusChem 8(2015): 2755-2756.

23. J. Gläsel, J.Y. Diao, Z.B. Feng, M. Hilgart, T. Wolker, D.S. Su, and B. J. M. Etzold,  Mesoporous and Graphitic Carbide-Derived Carbons as Selective and Stable Catalysts for the Dehydrogenation Reaction. Chem. Mater. 27(2015): 5719−5725.

24. X.Y. Sun, J.Y. Xu, Y.X. Ding, B.S. Zhang, Z.B. Feng and D. S. Su. The Effect of Different Phosphorus Chemical States on Onion-like Carbon Surface for Oxygen Reduction Reaction. ChemSusChem 8(17)(2015): 2872-2876.

25. Y.S. Zhu, Y.M. Lin, B.S. Zhang, J.F. Rong, B.N. Zong, and D. S. Su.  Nitrogen-doped Annealed Nanodiamonds with Varied sp2/sp3 Ratio as Metal-free Electrocatalyst for Oxygen Reduction Reaction. ChemCatChem 7(18)(2015)2840-2845.

26. H. Wang*, C.L. Chen*, Y.X. Zhang, L.X. Peng, S. Ma, T. Yang, H.H. Guo, Z. D. Zhang, D. S.Su & J. ZhangIn situ oxidation of carbon-encapsulated cobalt nanocapsules creates highly active cobalt oxide catalysts for hydrocarbon combustion, Nat. Commun. 6(2015): 7181(1-6).

27. Villa, D.Wang, D. S.Su and L. Prati*New challenges in gold catalysis: bimetallic systems, Catal. Sci. & Technol. 5(2015): 55-68.

28. M. M. Titirici, R.J. White, N. Brun,V. L. Budarin, D.S.Su,F.del Monte, J.H.Clarkd and M.J. MacLachlang, Sustainable carbon materials, Chem. Soc. Rev. 44(2015): 250-290.

29. Z.F.Wu, Y.Han, J.Lin, W.Zhu, M.Q. He, S.G.Xu, X.L.Chen, H.H. Lu, W.G.Ye, T.Y.Han, Y.Y.Wu, G.Long, J.Y.Shen, R.Huang, L.Wang, Y.H.He, Y.Cai, R.Lortz, D.S.Su, and N.Wang, Detection of interlayer interaction in few-layer graphene, Phys. Rev. B 92(2015):075408(1-7).

30. B.S. Zhang , A.G. Zheng , X.L. Pan, Y.M. Niu, X.X. Zhang, D.S. Su *, B. N. Zong,  Microstructure of rapidly quenched Ni-Al based catalysts by advanced electron microscopy, Chin. J. Catal. 36 (2015): 1662–1667.

31. S. J. Mao, X.Y. Sun, B. Li* and D.S. Su*, Rationale of the effects from dopants on C–H bond activation for sp2 hybridized nanostructured carbon catalysts,  Nanoscale 7(2015): 16597–16600.

32. H.Y. Liu, J.Wang, Z.B. Feng, Y.M. Lin, L.Y. Zhang and D.S. Su*, Facile Synthesis of Au Nanoparticles Embedded in an Ultrathin Hollow Graphene Nanoshell with Robust Catalytic Performance, Small 11(2015): 5059–5064.

33. J.Y.Diao, H.Y.Liu,* Z.B.Feng, Y.J.Zhang, T.Chen, C.X.Miao, W.M.Yang* and D.S.Su*, Highly dispersed nanodiamonds supported on few-layer graphene as robust metal free catalysts for ethylbenzene dehydrogenation reaction, Catal. Sci. & Technol. 5(2015): 4950-4953.

期刊论文(外文)——2014年 期刊论文(外文)——2014年

最小化 最大化

1. B.S. Zhang,L.D.Shao, W.Zhang,X.Y.Sun, X.L. Pan, D.S.Su,  Interaction between Palladium Nanoparticles and Surface-Modified Carbon Nanotubes: Role of Surface Functionalities ChemCatChem 6(2014)2607-2612

2. X.Y. Sun,R.Wang,B.S. Zhang,R.Huang,X.Huang,D.S. Su,T.Chen,C.X. Miao,W. M. Yang, Evolution and Reactivity of Active Oxygen Species on sp2@sp3 Core–Shell Carbon for the Oxidative Dehydrogenation Reaction ChemCatChem 6(2014)2270-2275

3. X.Y.Sun, B.Li,D.S.Su   Revealing the nature of the active site on the carbon catalyst for C–H bond activation Chem. Commun., 50(2014)11016-11019

4. L.Y.Zhang,G.D.Wen,H.Y.Liu, N. Wang,D.S.Su Preparation of Palladium Catalysts upported on Carbon Nanotubes by an Electrostatic Adsorption MethodChemCatChem  6(2014)2600-2606

5. W.Qi, W. Liu, S.Y. Liu, B.S.Zhang, X.M.Gu, X.L.Guo,D.S.Su Heteropoly Acid/Carbon Nanotube Hybrid Materials as Efficient Solid-Acid Catalysts ChemCatChem 6(2014)2613-2620

6. W.Qi, D.S. Su Metal-Free Carbon Catalysts for Oxidative Dehydrogenation ReactionsACS CATALYSIS 4(2014)3212−3218

7. 李波,苏党生利用杂原子调控纳米碳材料催化剂催化能力的初步探索化工学报65(2014)2657-2667

8. Y.S. Zhu, B. S. Zhang, X. Liu, D. W. Wang, and D. S. SuUnravelling the Structure of Electrocatalytically Active Fe–N Complexes in Carbon for Oxygen Reduction Reaction. Angew Chem Int Edit 53(2014): 12673-12677.

9. H. Y. Liu, L. Y.  Zhang, N. Wang and D. S. SuPalladium Nanoparticles Embedded in the Inner Surfaces of Carbon Nanotubes: Synthesis, Catalytic Activity, and Sinter Resistance. Angew Chem Int Edit 53(2014): 12634-12638.

10. Rui Huang,Hong Yang Liu, Bing Sen Zhang,Xiao Yan Sun,Chang Hai Liang,Dang Sheng Su,Bao Ning Zong, and Jun Feng Rong,Phosphate-Modified Carbon Nanotubes in the Oxidative Dehydrogenation of Isopentanes ChemSusChem 7(2014)3476-3482

11. Shuchang Wu,Guodong Wen,Jia Wang,Junfeng Rong,Baoning Zong, Robert Schlöglc and Dang Sheng Su,Nitrobenzene reduction catalyzed by carbon: does the reaction really belong to carbocatalysis?  Catalysis Science &Technology 4(2014)4183–4187

12. J.Liu,L.H. Jiang,B.S. Zhang, J.T. Jin,D.S.Su,S. L. Wang, G.Q.Sun,Controllable Synthesis of Cobalt Monoxide Nanoparticles and the Size-Dependent Activity for Oxygen Reduction Reaction ACS Catalysis 4(2014)2998−3001

13. T.T. Zhang,H.Y. Zhao, S.N. He, K. Liu, H.Y.Liu, Y.D.Yin,C.B. Gao,Unconventional Route to Encapsulated Ultrasmall Gold Nanoparticles for High-Temperature Catalysis ACS Nano 8(2014)7297-7304

14. G.L. Tian , Q.Zhang , B.S. Zhang , Y. G. Jin , J.Q. Huang ,D.S. Su , F. Wei,Toward Full Exposure of ‘Active Sites’: Nanocarbon Electrocatalyst with Surface Enriched Nitrogen for Superior Oxygen Reduction and Evolution ReactivityAdvanced Functional Materials 24(2014)5956–5961

15. X.W.Ji,X.Y.Niu,B.Li, Q.Han, F.L. Yuan, F.Zaera,Y.J. Zhu,and H.G.Fu,Selective Hydrogenation of Cinnamaldehyde to Cinnamal Alcohol over Platinum/Graphene Catalysts ChemCatChem 6(2014)3246-3253

16.Y. M. Lin, and D. S. Su,Fabrication of Nitrogen-Modified Annealed Nanodiamond with Improved Catalytic Activity. ACS Nano 8(2014): 7823-7833.

17.Y. M. Lin, X. L. Pan, W. Qi, B. S. Zhang, and D. S. Su,Nitrogen-doped onion-like carbon, a novel and efficient metal-free catalyst for epoxidation reaction, J. Mater. Chem. A, 2(2014): 12475-12483.

18. J. Wang, H. Y. Liu, X. M. Gu, H. H. Wang and D. S. Su,Synthesis of nitrogen-containing ordered mesoporous carbon as a metal-free catalyst for selective oxidation of ethylbenzene, Chem. Commun., 50(2014): 9182-9184.

19. K. Zhou, B. Li, Q. Zhang, J. Q. Huang, G. L. Tian, J. C. Jia, M. Q. Zhao, G. H. Luo, D. S. Su, and F. Wei,The Catalytic Pathways of Hydrohalogenation over MetalFree Nitrogen-Doped Carbon Nanotubes.ChemSusChem 7(2014):723-728.

20. B. W. Zhong, J. Zhang, B. Li, B.S. Zhang, C.L. Dai, X.Y. Sun, R. Wang, and D.S. Su, Insight into the mechanism of nanodiamond catalysed decomposition of methane molecules.Phys. Chem. Chem. Phys., 16(2014):4488-4491

21. B.W. Zhong, H.Y. Liu, X.M. Gu, and D.S. Su, Study of the Role of Surface Oxygen Functional Groups on Carbon Nanotubes in the Selective Oxidation of Acrolein. ChemCatChem6(2014):1553-1557

22. Y.X. Zhang, J. Zhang, abd D.S. Su, Substitutional Doping of Carbon Nanotubes with Heteroatoms and Their Chemical Applications.ChemSusChem 7(2014):1240-50

23. B.S. Zhang, and D.S. Su, Transmission Electron Microscopy and the Science of Carbon Nanomaterials.Small 10(2014):222-229

24. B.S. Zhang, and D.S. Su, Using electron beams to investigate catalytic materials.C. R. Physique 15(2014):258-268

25. H. Yuan, H.Y. Liu, B.S. Zhang, L.Y. Zhang, H.H. Wang, and D.S. Su, A Pd/CNT-SiC monolith as a robust catalyst for Suzuki coupling reactions.Phys. Chem. Chem. Phys.,16(2014):11178-11181

26. S.C. Wu, G.D. Wen, B.W. Zhong, B.S. Zhang, X.M. Gu, N. Wang, and D. S. Su, Reduction of nitrobenzene catalyzed by carbon Materials.Chin. J. Catal., 35(2014):914-921

27. S.C. Wu, G.D. Wen, X.M. Liu, B.W. Zhong, and D.S. Su, Model Molecules with Oxygenated Groups Catalyze the Reduction of Nitrobenzene: Insight into Carbocatalysis.ChemCatChem 2014):1558-1561

28. R. Wang, X.Y. Sun, B.S. Zhang, X.Y. Sun, and D.S. Su, Hybrid Nanocarbon as a Catalyst for Direct Dehydrogenation of Propane: Formation of an Active and Selective Core-Shell sp(2)/sp(3) Nanocomposite Structure.Chem. Eur J., 20(2014):6324-6331

29. L. Wang, J. Zhang, X.F. Wang, B.S. Zhang, W.J. Ji, D. S. Su, X. H. Bao, and F. S. Xiao, Creation of Bronsted acid sites on Sn-based solid catalysts for the conversion of biomass., J. Mater. Chem. A, 2(2014):3725-3729

30. L. Wang, B.S. Zhang, X.J. Meng, D.S. Su, and F.S., Xiao Hydrogenation of Biofuels with Formic Acid over a Palladium-Based Ternary Catalyst with Two Types of Active Sites.ChemSusChem 7(2014):1537-1541

31. D.W. Wang, and D.S. Su, Heterogeneous nanocarbon materials for oxygen reduction reaction. Energ. Environ. Sci., 7(2014):576-591

32. G.L. Tian, M.Q. Zhao, B.S. Zhang, Q. Zhang, W. Zhang, J. Q. Huang, W. Z. Qian, T. C. Chen,D. S. Su, and F. Wei, Monodisperse embedded nanoparticles derived from an atomic metal-dispersed precursor of layered double hydroxide for architectured carbon nanotube formation.J. Mater. Chem., A 2(2014):1686-1696

33. D.S. Su, Preface to Special Issue on Carbon in Catalysis.Chin. J. Catal., 35(2014):777

34. X.L. Pan, B.S. Zhang, B.W. Zhong, J. Wang, and D.S. Su, Towards a highly dispersed and more thermally stable Ru/OCNT catalyst. Chem. Commun., 50(2014):3856-3858

35. A. Mastrofrancesco, M. Alfe, E. Rosato, V. Gargiulo, C. Beatrice, G. Di Blasio, B. Zhang, D. S. Su, M. Picardo, and S. Fiorito, Proinflammatory Effects of Diesel Exhaust Nanoparticles on Scleroderma Skin Cells.J. Immunol. Res., 2014(2014)138751:1-9

36. S.J. Mao, B. Li, and D.S. Su, The first principles studies on the reaction pathway of the oxidative dehydrogenation of ethane on the undoped and doped carbon catalyst.J. Mater. Chem. A, 2(2014):5287-5294

37. H.Y. Liu, J.Y. Diao, Q. Wang, S.Y. Gu, T. Chen, C. X. Miao, W. M. Yang, and D. S. Su, A nanodiamond/CNT-SiC monolith as a novel metal free catalyst for ethylbenzene direct dehydrogenation to styrene. Chem. Commun., 50 (2014):7810-7812

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

39. B. Li, and D.S. Su, The Nucleophilicity of the Oxygen Functional Groups on Carbon Materials: A DFT Analysis.Chem. Eur J. 20(2014):7890-7894

40. X. M. Gu, W. Qi, X.Z. Xu, Z.H. Sun, L.Y. Zhang, W. Liu, X. L. Pan, and D. S. Su, Covalently functionalized carbon nanotube supported Pd nanoparticles for catalytic reduction of 4-nitrophenol.Nanoscale 6 (2014):6609-6616

41. X.M. Gu, W. Qi, S.C. Wu, Z.H. Sun, X.Z. Xu, and D.S. Su, Noncovalent functionalization of multi-walled carbon nanotubes as metal-free catalysts for the reduction of nitrobenzene. Catal. Sci. Technol.4(2014):1730-1733

42. Y.X. Ding, and D.S. Su, Host-Guest Nanocomposites of Multiwalled Carbon Nanotubes and Ionic Liquids with Controllable Composition.ChemSusChem 7(2014):1542-1546

43. T.C. Chou, R.A. Doong, C.C. Hu, B.S. Zhang, and D.S. Su, Hierarchically Porous Carbon with Manganese Oxides as Highly Efficient Electrode for Asymmetric Supercapacitors. ChemSusChem 7(2014):841-847

44. X. Chen, J.H. Jin, G.Y. Sha, C. Li, B.S. Zhang, D. S. Su, C. T. Williams, and C. H. Liang, Silicon-nickel intermetallic compounds supported on silica as a highly efficient catalyst for CO methanation. Catal. Sci. Technol. 4 (2014):53-61

45.T.-Z. Hou, H.-J. Peng, J.-Q.Huang, Q. Zhang* and B. Li*. The formation of strong-couple interactions between nitrogen-doped graphene and sulfur/lithium (poly) sulfides in lithium-sulfur batteries. ACS Nano 8(2014): 7823-7833.  

期刊论文(外文)——2013年 期刊论文(外文)——2013年

最小化 最大化

1. Zheng WQ, Cotter TP, Kaghazchi P, Jacob T, Frank B, K. Schlichte, W. Zhang, D. S. Su, F. Schuth, and R. Schlogl, Experimental and Theoretical Investigation of Molybdenum Carbide and Nitride as Catalysts for Ammonia Decomposition. J. Am. Chem. Soc. 135(2013):3458-3464

2. X.C. Zhao, Q. Zhang, B.S. Zhang, C.M. Chen, J.M. Xu, A. Q. Wang, D. S. Su, and T. Zhang, Decorated resol derived mesoporous carbon: highly ordered microstructure, rich boron incorporation, and excellent electrochemical capacitance. Rsc. Adv.3(2013):3578-3584

3. B.S. Zhang, W. Zhang, L.D. Shao, and D.S. Su, Optimum Energy-Dispersive X-Ray Spectroscopy Elemental Mapping for Advanced Catalytic Materials.ChemCatChem 5(2013):2586-2590

4. B.S. Zhang, and D.S. Su, Electron Tomography: Three-Dimensional Imaging of Real Crystal Structures at Atomic Resolution. Angew. Chem. Int. Edit. 52(2013):8504-8506

5. B.S. Zhang, L.D. Shao, W. Zhang, and D.S. Su, Clothing Carbon Nanotubes with Palladium Rings: Constructing CarbonMetal Hybrid Nanostructures under Electron-Beam Irradiation.ChemCatChem5(2013):2581-2585

6. H. Yuan, Z.H. Sun, H.Y. Liu, B.S. Zhang, and C.L. Chen, H. H. Wang, Z. M. Yang, J. S. Zhang, F. Wei, and D. S. Su, Immobilizing Carbon Nanotubes on SiC Foam as a Monolith Catalyst for Oxidative Dehydrogenation Reactions.ChemCatChem5(2013):1713-1717

7. H. Yuan, H.Y. Liu, J.Y. Diao, X.M. Gu, D.S. Su, Supported carbon nanotubes on SiO2 spheres as robust monolithic catalysts for the oxidative dehydrogenation of ethylbenzene. New Carbon Mater. 28(2013):336-341

8. Z.H. Xiao, J.H. Xiu, X.K. Wang, B.S. Zhang, C.T. Williams, D. S. Su, and C. H. Liang, Controlled preparation and characterization of supported CuCr2O4 catalysts for hydrogenolysis of highly concentrated glycerol.Catal. Sci. Technol.,3(2013):1108-1115

9. Z.X. Xia, S.L. Wang, Y.J. Li, L.H. Jiang, H. Sun, S. Zhu, D. S. Su, and G. Q. Sun, Vertically oriented polypyrrole nanowire arrays on Pd-plated Nafion (R) membrane and its application in direct methanol fuel cells. J. Mater. Chem. A1(2013):491-494

10. L. Wei, Z.Y. Zhou, S.P. Chen, C.D. Xu, D.S. Su, M. E. Schuster, and S. G. Sun, Electrochemically shape-controlled synthesis in deep eutectic solvents: triambic icosahedral platinum nanocrystals with high-index facets and their enhanced catalytic activity.Chem. Commun.49(2013):11152-11154

11. L. Wang, B.S. Zhang, W. Zhang, J. Zhang, X.H. Gao, X. J. Meng, D. S. Su, and F. S. Xiao, Positively charged bulk Au particles as an efficient catalyst for oxidation of styrene with molecular oxygen.Chem. Commun.49 (2013):3449-3451

12. L. Wang, Y. Wang, X.L. Chen, W. Zhu, C. Zhu, Z. F. Wu, Y. Han, M. W. Zhang, W. Li, Y. H. He, W. Xiong, K. T. Law, D. S. Su, and N. Wang, Negative Quantum Capacitance Induced by Midgap States in Single-layer Graphene.Scientific Reports 3(2013)2041:1-5

13. H. H. Wang, Z.H. Sun, Y. Yang, and D.S. Su, The growth and enhanced catalytic performance of Au@Pd core-shell nanodendrites.Nanoscale5(2013):139-142

14. Z. Tan, Z.H. Sun, H.H. Wang, Q. Guo, and D.S. Su, Fabrication of porous Sn-C composites with high initial coulomb efficiency and good cyclic performance for lithium ion batteries.J Mater Chem A1(2013):9462-9468

15. Z. Tan, Z.H. Sun, Q. Guo, H.H. Wang, and D.S. Su, A Novel Ion-exchange Method for the Synthesis of Nano-SnO/micro-C Hybrid Structure as High Capacity Anode Material in Lithium Ion Batteries.J. Mater. Sci. Technol.29(2013):609-612

16. X.Y. Sun, R. Wang, and D.S. Su, Research progress in metal-free carbon-based catalysts.Chin. J Catal 34(2013):508-23

17. D.S. Su, S. Perathoner, and G. Centi, Nanocarbons for the Development of Advanced Catalysts. Chem. Rev. 113(2013):5782-81

18. D.S. Su, and G. Centi, A perspective on carbon materials for future energy application.J. Energy Chem.22(2013):151-173

19. D.S. Su, Special Issue: Advanced Electron Microscopy for Catalysis.ChemCatChem 5(2013):2543-2545

20. Q.Q. Shi, F. Peng, S.X. Liao, H.J. Wang, H. Yu, Z. W. Liu, B. S. Zhang, and D. S. Su, Sulfur and nitrogen co-doped carbon nanotubes for enhancing electrochemical oxygen reduction activity in acidic and alkaline media.J. Mater. Chem. A1(2013):14853-14857

21. L.H. Shi, A.Q. Wang, T. Zhang, B.S. Zhang, D.S. Su, H. Q. Li, and Y. J. Song, One-Step Synthesis of Au-Pd Alloy Nanodendrites and Their Catalytic Activity.J. Phys. Chem. C117(2013):12526-12536

22. Shao LD, Zhang BS, Zhang W, Hong SY, Schlogl R, Su DS. The Role of Palladium Dynamics in the Surface Catalysis of Coupling Reactions.Angew Chem Int Edit52(2013):2114-7

23. W. Qi, W. Liu, B.S. Zhang, X.M. Gu, X.L. Guo, and D.S. Su Oxidative Dehydrogenation on Nanocarbon: Identification and Quantification of Active Sites by Chemical Titration.Angew. Chem. Int. Edit.52(2013):14224-14228

24. G.L. Li, L.H. Jiang, B.S. Zhang, Q. Jiang, D.S. Su, and G.Q. Sun, A highly active porous Pt-PbOx/C catalyst toward alcohol electro-oxidation in alkaline electrolyte.Int. J. Hydrogen Energ. 38(2013):12767-12773

25. C.M. Li, S.T. Zhang, B.S. Zhang, D.S. Su, S. He, Y. F. Zhao, J. Liu, F. Wang, M. Wei, D. G. Evans, and X. Duan, Photohole-oxidation-assisted anchoring of ultra-small Ru clusters onto TiO2 with excellent catalytic activity and stability.J. Mater. Chem. A1(2013):2461-2467

26. B. Li, and D.S. Su, First-Principles Studies of the Activation of Oxygen Molecule and Its Role in Partial Oxidation of Methane on Boron-Doped Single-Walled Carbon Nanotubes.J. Phys. Chem. C117(2013):17485-17492

27. Li B, and D.S. Su Theoretical Studies on Ethylene Selectivity in the Oxidative Dehydrogenation Reaction on Undoped and Doped Nanostructured Carbon Catalysts.Chem-Asian J. 8(2013):2605-2608

28. S. He, C.M. Li, H. Chen, D.S. Su, B.S. Zhang, X. Z. Cao, B. Y. Wang, M. Wei, D. G. Evans, and X. Duan, A Surface Defect-Promoted Ni Nanocatalyst with Simultaneously Enhanced Activity and Stability.Chem. Mater.25(2013):1040-1046

29. Q. Guo, Z.H. Sun, M. Gao, Z. Tan, B.S. Zhang, and D.S. Su, Porous V2O5-SnO2/CNTs composites as high performance cathode materials for lithium-ion batteries. J. Energy Chem. 22(2013):347-355

30. J.C. Guan, J.H. Jin, X. Chen, B.S. Zhang, D.S. Su, and C.H. Liang, Preparation and Formation Mechanism of Highly Dispersed Manganese Silicide on Silica by MOCVD of Mn(CO)(5)SiCl3.Chem. Vapor. Depos.19(2013):68-73

31. X.M. Gu, Z.H. Sun, S.C. Wu, W. Qi, H.H. Wang, X. Z. Xu, and D. S. Su, Surfactant-free hydrothermal synthesis of sub-10 nm gamma-Fe2O3-polymer porous composites with high catalytic activity for reduction of nitroarenes.Chem. Commun.49(2013):10088-10090

32. Y.J. Gao, G. Hu, J. Zhong, Z.J. Shi, Y.S. Zhu, D. S. Su, J. G. Wang, X. H. Bao, and D. Ma, Nitrogen-Doped sp2-Hybridized Carbon as a Superior Catalyst for Selective Oxidation.Angew. Chem. Int. Edit., 52(2013):2109-2113

33. B. Frank, M.E. Schuster, R. Schlogl, and D.S. Su Emission of Highly Activated Soot Particulate - The Other Side of the Coin with Modern Diesel Engines. Angew. Chem. Int. Edit., 52(2013):2673-2677

34. B. Frank, R. Schlogl, and D.S. Su, Diesel Soot Toxification.Environ. Sci. Technol. 47(2013):3026-3027

35. Z.B. Feng, S. Loffler, F. Eder, D.S. Su, J.C. Meyer, and P. Schattschneider, Combined study of the ground and unoccupied electronic states of graphite by electron energy-loss spectroscopy.J. Appl. Phys.114(2013): 183716

36. Y. Chu, B.S. Zhang, Q. Zhang, Y. Wang, D.S. Su, and F. Wei, The use of deposited nanocarbon for characterization of zeolite supported metal catalyst. Micropor. Mesopor. Mat.169(2013):201-206

37. C.L. Chen, J. Zhang, B.S. Zhang, C.L. Yu, F. Peng, and D.S. Su, Revealing the enhanced catalytic activity of nitrogen-doped carbon nanotubes for oxidative dehydrogenation of propane.Chem. Commun.49(2013):8151-8153

38. C.L. Chen, J. Zhang, F. Peng, and D.S. Su, Efficient functionalization of multi-walled carbon nanotubes by nitrogen dioxide.Mater. Res. Bull.48(2013):3218-3222

期刊论文(外文)——2012年 期刊论文(外文)——2012年

最小化 最大化

1. Y.F. Zhao, P.Y. Chen, B.S. Zhang, D.S. Su, S.T. Zhang, L. Tian, J. Lu, Z. X. Li, X. Z. Cao, B. Y. Wang, M. Wei, D. G. Evans, and X. Duan, Highly Dispersed TiO6 Units in a Layered Double Hydroxide for Water?Splitting. Chem. Eur J.18(2012):11949-11958

2. X.C. Zhao, Q. Zhang, B.S. Zhang, C.M. Chen, A.Q. Wang, T. Zhang, and D. S. Su, Dual-heteroatom-modified ordered mesoporous carbon: Hydrothermal functionalization, structure, and its electrochemical performance. J. Mater. Chem.22(2012):4963-4969

3. X.C. Zhao, Q. Zhang, C.M. Chen, B.S. Zhang, S. Reiche, A. Q. Wang, T. Zhang, R. Schlogl, and D. S. Su, Aromatic sulfide, sulfoxide, and sulfone mediated mesoporous carbon monolith for use in supercapacitor.Nano Energy1(2012):624-630

4. J. Zhang, R. Wang, E.Z. Liu, X.F. Gao, Z.H. Sun, F. S. Xiao, F. Girgsdies, and D. S. Su, Spherical Structures Composed of Multiwalled Carbon Nanotubes: Formation Mechanism and Catalytic Performance.Angew. Chem. Int. Edit. 51(2012):7581-7585

5. J.F. Yu, R. Wang, S.Y. Ren, X.Y. Sun, C.L. Chen, Q. J. Ge, W. Fang, J. Zhang, H. Y. Xu, and Su, D. S. The Unique Role of CaO in Stabilizing the Pt/Al2O3 Catalyst for the Dehydrogenation of Cyclohexane. ChemCatChem 4(2012):1376-1381

6. Z. Xu, H.M. Zhang, H.X. Zhong, Q.H. Lu, Y.F. Wang, and D.S. Su, Effect of particle size on the activity and durability of the Pt/C electrocatalyst for proton exchange membrane fuel cells. Appl. Catal. B-Environ 111(2012):264-270

7. Z. Xu, H.M. Zhang, S.S. Liu, B.S. Zhang, H.X. Zhong, and D.S. Su, Facile synthesis of supported Pt-Cu nanoparticles with surface enriched Pt as highly active cathode catalyst for proton exchange membrane fuel cells. Int. J. Hydrogen Energ.37(2012):17978-17983

8. X.Z. Wang, J.S. Qiu, J.Y. Qu, Z.Y. Wang, and D.S. Su, Fabrication, magnetic properties and self-assembly of hierarchical crystalline hexapod magnetites.Rsc. Adv. 2(2012):4329-4334

9. L.F. Wang, J.J. Delgado, B. Frank, Z. Zhang, Z.C. Shan, D. S. Su, and F. S. Xiao, Resin-Derived Hierarchical Porous Carbon Spheres with High Catalytic Performance in the Oxidative Dehydrogenation of Ethylbenzene.ChemSusChem 5(2012):687-693

10. H.H. Wang, Z.H. Sun, Q.H. Lu, F.W. Zeng, and D.S. Su, One-Pot Synthesis of (Au Nanorod)-(Metal Sulfide) Core-Shell Nanostructures with Enhanced Gas-Sensing Property.Small 8(2012):1167-1172

11. D.S. Su, S. Perathoner, and G. Centi, Catalysis on nano-carbon materials: Going where to? Preface. Catal. Today 186(2012):1-6

12. D.S. Su, Editorial: Chemistry of Energy Conversion and Storage.ChemSusChem 5(2012):443-445

13. L.D. Shao, B.S. Zhang, W. Zhang, D. Teschner, F. Girgsdies, R. Schlogl, and D. S. Su, Improved Selectivity by Stabilizing and Exposing Active Phases on Supported Pd Nanoparticles in Acetylene-Selective Hydrogenation.Chem. Eur J. 18(2012):14962-14966

14. J.O. Muller, B. Frank, R.E. Jentoft, R. Schlogl, and D.S. Su, The oxidation of soot particulate in the presence of NO2. Catal. Today 191(2012):106-111

15. X.L. Mou, B.S. Zhang, Y. Li, L.D. Yao, X.J. Wei, D. S. Su, and W. J. Shen, Rod-Shaped Fe2O3 as an Efficient Catalyst for the Selective Reduction of Nitrogen Oxide by Ammonia. Angew. Chem. Int. Edit., 51(2012):2989-2993

16. X.L. Mou, Y. Li, B.S. Zhang, L.D. Yao, X.J. Wei, D. S. Su, and W. J. S, Crystal-Phase- and Morphology-Controlled Synthesis of Fe2O3 Nanomaterials. Eur. J. Inorg. Chem. (2012)16:2684-2690

17. J. Liu, L.H. Jiang, Q.W. Tang, B.S. Zhang, D.S. Su, S. L. Wang, and G. Q. Sun, Coupling Effect Between Cobalt Oxides And Carbon For Oxygen Reduction Reaction. ChemSusChem 5(2012):2315-2318

18. X. Huang, M. Wang, M.G. Willinger, L.D. Shao, D.S. Su, and X.M. Meng, Assembly of Three-Dimensional Hetero-Epitaxial ZnO/ZnS Core/Shell Nanorod and Single Crystalline Hollow ZnS Nanotube Arrays.ACS Nano 6(2012):7333-7339

19. J.Q. Huang, M.Q. Zhao, Q. Zhang, J.Q. Nie, L.D. Yao, D. S. Su, and F. Wei, Efficient synthesis of aligned nitrogen-doped carbon nanotubes in a fluidized-bed reactor.Catal. Today 186(2012):83-92

20. C.H. Huang, Q. Zhang, T.C. Chou, C.M. Chen, D.S. Su, and R.A. Doong, Three-Dimensional Hierarchically Ordered Porous Carbons with Partially Graphitic Nanostructures for Electrochemical Capacitive Energy Storage. ChemSusChem 5(2012):563-571

21. X.F. Gao, C.L. Chen, S.Y. Ren, J. Zhang, and D.S. Su, Structural Effects of Cerium Oxides on Their Thermal Stability and Catalytic Performance in Propane Oxidation Dehydrogenation.Chin. J. Catal. 33(2012):1069-1074

22. C.M. Chen, Q. Zhang, X.C. Zhao, B.S. Zhang, Q.Q. Kong, M. G. Yang, Q. H. Yang, M. Z. Wang, Y. G. Yang, R. Schlogl, and Su, D. S. Hierarchically aminated graphene honeycombs for electrochemical capacitive energy storage.J. Mater. Chem. 22(2012):14076-14084

23. C.M. Chen, Q. Zhang, J.Q. Huang, W. Zhang, X.C. Zhao, C. H. Huang,F. Wei,Y. G. Yang,M. Z. Wang, and D. S. Su, Chemically derived graphene-metal oxide hybrids as electrodes for electrochemical energy storage: pre-graphenization or post-graphenization?J Mater Chem22(2012):13947-13955

24. C.M. Chen, Q. Zhang, C.H. Huang, X.C. Zhao, B.S. Zhang, Q. Q. Kong, M. Z. Wang, Y. G. Yang, R. Cai, and D. S. Su, Macroporous 'bubble' graphene film via template-directed ordered-assembly for high rate supercapacitors.Chem. Commun. 48(2012):7149-7151

25.R. Arrigo, S. Wrabetz, M.E. Schuster, D. Wang, A. Villa, D. Rosenthal, F. Girsgdies, G. Weinberg, L. Prati, R. Schlogl, and D. S. Su, Tailoring the morphology of Pd nanoparticles on CNTs by nitrogen and oxygen functionalization.Phys. Chem. Chem. Phys.14(2012):10523-10532

26. R. Arrigo, M.E. Schuster, S. Wrabetz, F. Girgsdies, J.P. Tessonnier, G. Centi, S. Perathoner, D. S. Su, and R. Schlogl, New Insights from Microcalorimetry on the FeOx/CNT-Based Electrocatalysts Active in the Conversion of CO2 to Fuels. ChemSusChem 5(2012):577-586

期刊论文(外文)——2011年 期刊论文(外文)——2011年

最小化 最大化

1. W. Zhang, B. S. Zhang, T. Wolfram, L. D. Shao, R. Schlögl, and D. S. Su, "Probing a Redox Behavior of TiO2/SBA-15 Supported VxOy Catalyst Using an Electron Beam in a 200 kV Transmission Electron Microscope", J. Phys. Chem. C 115 (2011): 20550–20554

2. D. S. Su, "Special Issue: Advanced Electron Microscopy for Catalysis", ChemCatChem 3 (2011): 919–920

3. R. F. Zhang, Q. Wen, W. Z. Qian, D. S. Su, Q. Zhang, and F. Wei,"Superstrong Ultra long Carbon Nanotubes for Mechanical Energy Storage", Adv. Mater. 23 (2011): 3387–3391

4. B. S. Zhang, W. Zhang, and D. S. Su,"Towards a More Accurate Particle Size Distribution of Supported Catalyst by using HAADF-STEM", ChemCatChem 3 (2011): 965–968

5. Y. J. Gao, D. Ma, G. Hu, P. Zhai, X. H. Bao, B. Zhu, B. S. Zhang, and D. S. Su, "Layered-Carbon-Stabilized Iron Oxide Nanostructures as Oxidation Catalysts" Angew. Chem. Int. Ed. 50 (2011): 10236–10240

6. D. S. Su, "20 Years of Carbon Nanotubes", ChemSusChem 4 (2011): 811–813

7. D. S. Su, "Inorganic Materials with Double-Helix Structures", Angew. Chem. Int. Ed. 50 (2011): 4747–4750

8. A. Rinaldi, J.-P. Tessonnier, M. E. Schuster, R. Blume, F. Girgsdies, Q. Zhang, D. S. Su, R. Schlögl, "Dissolved Carbon Controls the Initial Stages of Nanocarbon Growth", Angew. Chem. Int. Ed. 50 (2011): 3313–3317

9. X. Liu, B. Frank, W. Zhang, T. P. Cotter, R. Schlögl, and D. S. Su, "Carbon-Catalyzed Oxidative Dehydrogenation of n-Butane: Selective Site Formation during sp3-to-sp2 Lattice Rearrangement", Angew. Chem. Int. Ed. 50 (2011): 3318–3322

10. B. S. Zhang, X. J. Ni, W. Zhang, L. D. Shao, Q. Zhang, F. Girgsdies, C. H. Liang, R. Schlögl and D.S. Su, "Structural rearrangements of Ru nanoparticles supported on carbon nanotubes under microwave irradiation", Chem. Commun. 47 (2011):10716–10718

11. J. P. Tessonnier, D. S. Su, "Recent Progress on the Growth Mechanism of Carbon Nanotubes: A Review", ChemSusChem 4 (2011): 824-847

12. F. W. Zeng, Z. H. Sun, X. G. Sang, D. Diamond, K. T. Lau, X. X. Liu, D. S. Su, "In-Situ One-Step Electrochemical Preparation of Graphene Oxide Nanosheet-Modified Electrodes for Biosensors", ChemSusChem 4 (2011): 1587–1591

13. D. S. Su, G. Q. Sun, "Nonprecious-Metal Catalysts for Low-Cost Fuel Cells", Angew. Chem. Int. Ed. 50 (2011): 11570–11572

14. B. S. Zhang, D. Wang, W. Zhang, D. S. Su, R. Schlögl, "Structural dynamics of low-symmetric Au nanoparticles stimulated by electron irradiation", Chem. Eur. J.17 (2011): 12877-12881

期刊论文(外文)——2010年 期刊论文(外文)——2010年

最小化 最大化

1. D.S. Su, and R. Schlögl, "Nanostructured Carbon and Carbon Nanocomposites for Electrochemical Energy Storage Applications",ChemSusChem 3(2010): 136-168

2. D.S. Su, J. Zhang, B. Frank, A. Thomas, X.C. Wang, J. Paraknowitsch, and R. Schlögl, "Metal-Free Heterogeneous Catalysis for Sustainable Chemistry", ChemSusChem 3 (2010): 169-180

3. J. Zhang, D.S. Su, R. Blume, R. Schlögl, R. Wang, X.G. Yang, A. Gajović,"Surface Chemistry and Catalytic Reactivity of a Nanodiamond in the Steam-Free Dehydrogenation of Ethylbenzene", Angew. Chem. Int. Ed. 49 (2010): 8640 –8644

4. C.L.Chen,J.Zhang,R. Wang, D.S.Su,F.Peng, "Preparation and Quantitative Characterization of Nitrogen-Functionalized Multiwalled Carbon Nanotubes", Chin. J. Catal. 31 (2010): 948-954

5. A. Rinaldi, J. Zhang, B. Frank, D.S. Su, S.B. Abd Hamid, and R. Schlögl,Oxidative Purification of Carbon Nanotubes and Its Impact on Catalytic Performance in Oxidative Dehydrogenation Reactions, ChemSusChem 3 (2010): 254-260

期刊论文(中文) 期刊论文(中文)

最小化 最大化

序号

题名

作者

作者单位

文献来源

发表时间

1 利用杂原子调控纳米碳材料催化剂催化能力的初步探索 李波,苏党生 中国科学院金属研究所沈阳材料科学国家(联合)实验室 化工学报65(2014)2657-2667  2014

 2

氧化铈的结构对其热稳定性及催化丙烷氧化脱氢反应性能的影响

 高旭锋; 谌春林; 任士远; 张建; 苏党生

 中国科学院金属研究所沈阳材料科学国家(联合)实验室

催化学报

 2012-07-20

 3

纳米金刚石非金属催化性能研究进展

 张建; 王锐; 苏党生

 中国科学院金属研究所沈阳材料科学国家(联合)实验室

中国科学:化学

 2012-04-20

 4

碳纳米管的表征和重金属阴离子吸附性能

 徐艺军; Rosa Arrigo; 刘晰; 苏党生

 Fritz Haber Institute of the Max Planck Society

新型炭材料

 2011-02-15

 5

搅拌式过滤器的研制及在油田污水处理中的应用

 马春芳; 李明; 苏党生; 孙海琴

 大庆石油有限责任公司第四采油厂一矿

内蒙古石油化工

 2010-06-15

 6

氮掺杂多壁纳米碳管的合成和定量表征

 谌春林; 张建; 王锐; 苏党生; 彭峰

 中国科学院金属研究所沈阳材料科学国家(联合)实验室; 华南理工大学化学与化工学院

催化学报

 2010-08-30

 7

在泡沫碳化硅载体上自转化合成silicalite-1型沸石晶体

 矫义来; 杨振明; 曹小明; 田冲; 苏党生; 张劲松

 中国科学院金属研究所

材料研究学报

 2009-10-25

 8

选择冲洗法在碳纳米管内部填充金属粒子

 傅强; Gisela Weinberg; 苏党生

 Fritz-Haber-Institut der MPG Faradayweg4-6; D-14195; Berlin; Germany; Fritz-Haber-Institut der MPG; Faradayweg4-6; D-14195 Berlin

新型炭材料

 2008-03-15