1. Implantation of nanomaterials and nanostructures on surface and their applications；Chun-Li Bai, Ming-Hua Liu；Nano Today 2012, 7, 258—281

2. Nanostructured polyaniline-decorated Pt/C@PANI core−shell catalyst with enhanced durability and activity；Si-Guo Chen, Zi-Dong Wei, Xue-Qiang Qi, Li-Chun Dong, Yu-Guo Guo, Li-Jun Wan, Zhi-Gang Shao and Li Li；J. Am. Chem. Soc. 2012, 134, 13252−13255

3. Molecular templates for controlling and ordering organic molecules on solid surfaces；

Xu Zhang, Shan-Shan Li, Ting Chen, Dong Wang and Li-Jun Wan；Nano, 2012, (1) 7, P1230001-12

4. Potential dependent adsorption geometry of 2,5-Dihydroxybenzoic acid on a Au(111) surface: An in situ electrochemical scanning tunneling microscopy study； Pei-Xia Dai, Ting Chen, Dong Wang and Li-Jun Wan；J. Phys. Chem. C 2012, 116, 6208−6214

5. Formation of host–guest structure at an electrified electrode surface: An electrochemical STM investigation； Liu Yang, Dong Wang, Li-Jun Wan；Electrochemistry Communications,2012, 17, 82–84

6. Construction and repair of highly ordered 2D covalent networks by chemical equilibrium regulation； Cui-Zhong Guan, Dong Wang and Li-Jun Wan；Chem. Commun., 2012, 48, 2943–2945

7. Electrochemical reactions and phase transitions investigated by in situ scanning tunneling microscopy； Bo Cui, Dong Wang and Li-Jun Wan；Indian Journal of Chemistry 2012, 51A, 196-204

8. Initial solid electrolyte interphase formation process of graphite anode in LiPF6 electrolyte: an in situ ECSTM investigation；Lin Wang, Xin Deng, Pei-Xia Dai, Yu-Guo Guo, Dong Wang and Li-Jun Wan；Phys. Chem. Chem. Phys., 2012, 14, 7330–7336

9. Block copolymer-templated chemical nanopatterning on pyrolyzed photoresist carbon films； Xin Deng, Jillian M. Buriak, Pei-Xia Dai, Li-Jun Wan and Dong Wang；Chem. Commun., 2012, 48, 9741–9743

10. Assembling structures of barbituric acid derivatives on graphite surface investigated with scanning tunneling microscopy；Ting Chen, Hui-Juan Yan, Zhi-Yong Yang, Dong Wang, and Ming-Hua Liu；J. Phys. Chem. C 2012, 116, 19349−19354

11. Morphology control and shape evolution in 3D hierarchical superstructures； An-Min Cao, Jin-Song Hu & Li-Jun Wan；Sci China Chem, 2012, 55(11), 2249–2256

12. Hanging Pt hollow nanocrystal assemblies on graphene resulting in an enhanced lectrocatalyst； Yu-Ping Xiao, Shuo Wan, Xing Zhang, Jin-Song Hu, Zi-Dong Wei and Li-Jun Wan；Chem. Commun., 2012, 48, 10331–10333

13. Improving the electrode performance of ge through Ge@C core−shell nanoparticles and graphene networks； Ding-Jiang Xue, Sen Xin, Yang Yan, Ke-Cheng Jiang, Ya-Xia Yin, Yu-Guo Guo, and Li-Jun Wan；J. Am. Chem.Soc. 2012, 134, 2512−2515

14. Smaller sulfur molecules promise better lithium−sulfur batteries； Sen Xin, Lin Gu, Na-Hong Zhao, Ya-Xia Yin, Long-Jie Zhou, Yu-Guo Guo, and Li-Jun Wan；J. Am. Chem. Soc. 2012, 134, 18510−18513

15. Rutile-TiO2 nanocoating for a high-rate Li4Ti5O12 anode of a lithium-ion battery； Yong-Qing Wang, Lin Gu, Yu-Guo Guo, Hong Li, Xiao-Qing He, Susumu Tsukimoto, Yuichi Ikuhara, and Li-Jun Wan；J. Am. Chem. Soc. 2012, 134, 7874−7879

16. Nanocarbon networks for advanced rechargeable lithium batteries； Sen Xin, Yu-Guo Guo, and Li-Jun Wan；Accounts of Chemical Research, 2012, 45(10), 1759–1769

17. Anisotropic photoresponse properties of single micrometer-sized GeSe nanosheet； Ding-Jiang Xue, Jia-Hui Tan, Jin-Song Hu, Wen-Ping Hu, Yu-Guo Guo, and Li-Jun Wan；Adv. Mater. 2012, 24, 4528–4533

18. Highly efficient and thermally stable polymer solar cells with dihydronaphthyl-based [70]fullerene bisadduct derivative as the acceptor； Xiang-Yue Meng，Wen-Qing Zhang, Zhan-Ao Tan，Yong-Fang Li, Yi-Han Ma, Tai-Shan Wang, Li Jiang, Chun-Ying Shu, and Chun-Ru Wang；Adv. Funct. Mater. 2012, 22, 2187–2193

19. Synthesis, self-assembly, and high performance in gas sensing of x‑shaped iron oxide crystals； Zhi-Feng Dou, Chang-Yan Cao, Qiong Wang, Jin Qu, Yu Yu, and Wei-Guo Song；ACS Appl. Mater. Interfaces 2012, 4, 5698−5703

20. Superb adsorption capacity and mechanism of flowerlike magnesium oxide nanostructures for lead and cadmium ions； Chang-Yan Cao, Jin Qu, Fang Wei, Hua Liu, and Wei-Guo Song；ACS Appl. Mater. Interfaces 2012, 4, 4283−4287

21. Core–shell structured mesoporous silica as acid–base bifunctional catalyst with designated diffusion path for cascade reaction sequences；Ping Li, Chang-Yan Cao, Zhe Chen, Hua Liu, Yu Yu and Wei-Guo Song；Chem. Commun., 2012, 48, 10541–10543

22. Synthesis of cyclic carbonates: catalysis by an iron-based composite and the role of hydrogen bonding at the solid/liquid interface；Jin Qu, Chang-Yan Cao, Zhi-Feng Dou, Hua Liu, Yu Yu, Ping Li, and Wei-Guo Song；ChemSusChem 2012, 5, 652 – 655

23. Low cost synthesis of 3D flowerlike Co3O4 nanostructures as active catalyst for CO oxidation； Chang-Yan Cao, Zhi-Feng Dou, Hua Liu, Wei-Guo Song；Chin. J. Catal., 2012, 33,1334–1339

24. Low-cost and large-scale synthesis of alkaline earth metal germinate nanowires as a new class of lithium ion battery anode material； Wei Li, Ya-Xia Yin, Sen Xin, Wei-Guo Song and Yu-Guo Guo；Energy Environ. Sci., 2012, 5, 8007–8013

25. Cost-effective production of pure Al13 from AlCl3 by electrolysis； Wei-Ming Zhang, Jin-Xia Zhuang, Qing Chen, Shun Wang, Wei-Guo Song, and Li-Jun Wan；Ind. Eng. Chem. Res. 2012, 51, 11201−11206

26. High adsorption capacity and the key role of carbonate groups for heavy metal ion removal by basic aluminum carbonate porous nanospheres；Chang-Yan Cao, Ping Li, Jin Qu, Zhi-Feng Dou, Wen-Sheng Yan, Jun-Fa Zhu, Zi-Yu Wu and Wei-Guo Song; J. Mater. Chem., 2012, 22, 19898–19903

27. Low-cost synthesis of graphitic carbon nanofibers as excellent room temperature sensors for explosive gases； Wei Li, Le-Sheng Zhang, Qiong Wang, Yu Yu, Zhe Chen, Chang-Yan Cao and Wei-Guo Song；J. Mater. Chem., 2012, 22, 15342–15347

28. Metal silicate nanotubes with nanostructured walls as superb adsorbents for uranyl ions and lead ions in water；Jin Qu, Wei Li, Chang-Yan Cao, Xiao-Jie Yin, Liang Zhao, Jing Bai, Zhi Qin and Wei-Guo Song；J. Mater. Chem., 2012, 22, 17222–17226

29. New hierarchical zinc silicate nanostructures and their application in lead ion adsorption； Jin Qu, Chang-Yan Cao, You-Li Hong, Chao-Qiu Chen, Pei-Ping Zhu, Wei-Guo Song and Zi-Yu Wu； J. Mater. Chem., 2012, 22, 3562–3567

30. Diffusion induced reactant shape selectivity inside mesoporous pores of Pd@meso-SiO2 nanoreactor in suzuki coupling reactions； Zhe Chen, Zhi-Min Cui, Ping Li, Chang-Yan Cao, You-Li Hong, Zi-Yu Wu, and Wei-Guo Song；J. Phys. Chem. C 2012, 116, 14986−14991

31. Low-cost synthesis of flowerlike α-Fe2O3 nanostructures for heavy metal ion removal: adsorption property and mechanism； Chang-Yan Cao, Jin Qu, Wen-Sheng Yan, Jun-Fa Zhu, Zi-Yu Wu, and Wei-Guo Song；Langmuir 2012, 28, 4573−4579

32.Temperature-responsives mart nanoreactors: Poly(N‑isopropylacrylamide) coated Au@Meso-SiO₂ hollow nanospheres；Zhe Chen, Zhi-Min Cui, Chang-Yan Cao, Wei-Dong He, Lei Jiang, and Wei-Guo Song；Langmuir 2012, 28, 13452−13458

33. Low-cost synthesis of robust anatase polyhedral structures with a preponderance of exposed {001} facets for enhanced photoactivities； Yu Yu, Chang-Yan Cao, Wei Li, Ping Li, Jin Qu, and Wei-Guo Song；Nano Res. 2012, 5(6), 434–442

34. Superior hybrid cathode material containing lithium-excess layered material and graphene for lithium-ion batteries； Ke-Cheng Jiang, Xing-Long Wu, Ya-Xia Yin, Jong-Sook Lee, Jaekook Kim, and Yu-Guo Guo；ACS Appl. Mater. Interfaces 2012, 4, 4858−4863

35. Efficient 3D conducting networks built by graphene sheets and carbon nanoparticles for high-performance silicon anode； Xiao-Si Zhou, Ya-Xia Yin, An-Min Cao, Li-Jun Wan, and Yu-Guo Guo；ACS Appl. Mater. Interfaces 2012, 4, 2824−2828

36. Self-assembled nanocomposite of silicon nanoparticles encapsulated in graphene through electrostatic attraction for lithium-ion batteries； Xiao-Si Zhou, Ya-Xia Yin, Li-Jun Wan, and Yu-Guo Guo；Adv. Energy Mater. 2012, 2, 1086–1090

37. Ionothermal synthesis of sulfur-doped porous carbons hybridized with graphene as superior anode materials for lithium-ion batteries； Yang Yan, Ya-Xia Yin, Sen Xin, Yu-Guo Guo and Li-Jun Wan； Chem. Commun., 2012, 48, 10663–10665

38. Facile synthesis of silicon nanoparticles inserted into graphene sheets as improved anode materials for lithium-ion batteries； Xiao-Si Zhou, Ya-Xia Yin, Li-Jun Wan and Yu-Guo Guo；Chem. Commun., 2012, 48, 2198–2200

39. Silicon-based nanomaterials for lithium-ion batteries； Ya-Xia Yin, Li-Jun Wan & Yu-Guo Guo；

Chin Sci Bull, 2012 ,57(32), 4104-4110

40. Nitroxide radical polymer/graphene nanocomposite as an improved cathode, material for rechargeable lithium batteries； Wei Guo, Jing Su, Yan-Hua Li, Li-Jun Wan, Yu-Guo Guo； Electrochimica Acta 2012, 72, 81– 86

41. Superior radical polymer cathode material with a two-electron process redox reaction promoted by grapheme；Wei Guo, Ya-Xia Yin, Sen Xin, Yu-Guo Guo and Li-Jun Wan；Energy Environ. Sci., 2012, 5, 5221–5225

42. Au–Cu alloy bridged synthesis and optoelectronic properties of Au@CuInSe2 core–shell hybrid nanostructures；Qing-Feng Zhang, Jian-Jun Wang, Zhi-Yuan Jiang, Yu-Guo Guo, Li-Jun Wan, Zhao-Xiong Xie and Lan-Sun Zheng；J. Mater. Chem., 2012, 22, 1765–1769

43. A robust composite of SnO2 hollow nanospheres enwrapped by graphene as a high-capacity anode material for lithium-ion batteries； Xiao-Si Zhou, Ya-Xia Yin, Li-Jun Wan and Yu-Guo Guo；J. Mater. Chem., 2012, 22, 17456–17459

44. Synthesis of nanostructured SnO2/C microfibers with improved performances as anode material for Li-ion batteries； Ya-Xia Yin, Sen Xin, Li-Jun Wan, Cong-Ju Li and Yu-Guo Guo；J. Nanosci. Nanotechnol, 2012,12, 2581-2585

45. Self-assembled LiFePO4/C nano/microspheres by using phytic acid as phosphorus source； Jing Su, Xing-Long Wu, Chun-Peng Yang, Jong-Sook Lee, Jaekook Kim, and Yu-Guo Guo；J. Phys. Chem. C 2012, 116, 5019−5024

46. Spin-coated silicon anoparticle/graphene electrode as binder-free anode for high-performance lithium-ion batteries； Xiao-Si Zhou, An-Min Cao,Li-Jun Wan,and Yu-Guo Guo；Nano Res. 2012, 5(12): 845–853

47. Facile synthesis of MoS2@CMK-3 nanocomposite as an improved anode material for lithium-ion batteries；Xiao-Si Zhou, Li-Jun Wan and Yu-Guo Guo；Nanoscale, 2012, 4, 5868–5871

48. Wurtzite Cu2ZnSnSe4 nanocrystals for high-performance organic–inorganic hybrid photodetectors； Jian-Jun Wang, Jin-Song Hu, Yu-Guo Guo and Li-Jun Wan；NPG Asia Materials (2012) 4, e2

49. Improved kinetics of LiNi1/3Mn1/3Co1/3O2 cathode material through reduced graphene oxide networks； Ke-Cheng Jiang, Sen Xin, Jong-Sook Lee, Jaekook Kim, Xiao-Ling Xiao and Yu-Guo Guo；

Phys. Chem. Chem. Phys., 2012, 14, 2934–2939

50. SnO2 hollow spheres: Polymer bead-templated hydrothermal synthesis and their electrochemical properties for lithium storage； Ya-Xia Yin, Xin Sen, Li-Jun Wan, Cong-Ju Li, & Yu-Guo Guo；Sci China Chem, 2012, 55(7), 1314–1318

51. Comments on internal alternating current resistance test standard and methods of lithium-ion batteries； Ya-Li Zhang，Xin Sen, Yu-Guo Guo, Li-Jun Wan；J. Electrochem, 2012, 18 (3), 205-214

52. Amine-free preparation of SnSe nanosheets with high crystallinity and their lithium storage properties； Shi-Zhao Kang, La-Di Jia, Xiang-Qing Li, Ya-xia Yin, Liang Li, Yu-Guo Guo, Jin Mu；

Colloids and Surfaces A: Physicochem. Eng. Aspects 2012,406, 1– 5

53. Controllable fabrication of iron oxide/oxyhydroxide with diverse nanostructures and their excellent performance in visible light induced photocatalytic degradation of rhodamine B； Hui Li, Tai-Shan Wang, Yan-Jun Zhang, Li Jiang, Chun-Ying Shu, and Chun-Ru Wang；J. Nanosci. Nanotechnol. 2012,12, 1910–1918

54. Susceptible electron spin adhering to an yttrium cluster inside an azafullerene C79N； Yi-Han Ma, Tai-Shan Wang, Jing-Yi Wu, Yong-Qiang Feng, Li Jiang, Chun-Ying Shu and Chun-Ru Wang；Chem. Commun., 2012, 48, 11570–11572

55. Preparation and ESR study of Sc3C2@C80 bis-addition fulleropyrrolidines；Tai-Shan Wang, Jing-Yi Wu, Yong-Qiang Feng, Yi-Han Ma, Li Jiang；Chun-Ying Shu and Chun-Ru Wang；Dalton Trans., 2012, 41, 2567–2570

56. Dihydronaphthyl-based [60]fullerene bisadducts for efficient and stable polymer solar cells； Xiang-Yue Meng, Wen-Qing Zhang, Zhan-Ao Tan, Chun Du, Cui-Hong Li, Zhi-Shan Bo,Yong-Fang Li, Xiu-Lin Yang, Ming-Ming Zhen, Feng Jiang, Jun-Peng Zheng, Tai-Shan Wang, Li Jiang, Chun-Ying Shu and Chun-Ru Wang；Chem. Commun., 2012, 48, 425–427

57. Identification of the most stable Sc2C80 isomers: Structure, electronic property, and molecular spectra investigations； Jing-Yi Wu, Tai-Shan Wang, Chun-ying Shu, Xin Lü, Chun-Ru Wang； Chin. J. Chem. 2012, 30, 765—770

58. A density functional theory investigation for the open-shell metal-carbide endofullerene Lu3C2@C88(D2:35) and closed-shell metal-nitride endofullerene Lu3N@C88(D2:35)； Jing-Yi Wu, Wei Xu, Tai-Shan Wang, Li Jiang, Chun-Ying Shu and Chun-Ru Wang； J. Nanosci. Nanotechnol. 2012, 12(3) ,2254–2260

59. A linear molecule functionalized multi-walled carbon nanotubes with well dispersed PtRu nanoparticles for ethanol electro-oxidation； Xiu-Lin Yang, Jun-Peng Zheng, Ming-Ming Zhen, Xiang-yue Meng, Feng Jiang, Tai-Shan Wang, Chun-Ying Shu, Li Jiang, Chun-Ru Wang；Applied Catalysis B: Environmental, 2012,121– 122,57– 64

60. Enhanced electrocatalytic performance for methanol oxidation of Pt nanoparticles on Mn3O4-modified multi-walled carbon nanotubes； Xiu-Lin Yang, Xue-Yun Wang, Guo-Qiang Zhang, Jun-Peng Zheng, Tai-Shan Wang, Xian-Zong Liu, Chun-Ying Shu, Li Jiang, Chun-Ru Wang； International Journal of Hydrogen Energy, 2012,37,11167-11175

61. Effects of Alkoxy Chain Length in Alkoxy-Substituted Dihydronaphthyl-Based [60]Fullerene Bisadduct Acceptors on Their Photovoltaic Properties； Xiang-Yue Meng, Qi Xu, Wen-Qing Zhang,Zhan-Ao Tan,Yong-Fang Li, Zhu-Xia Zhang, Li Jiang,Chun-Ying Shu,and Chun-Ru Wang； ACS Appl. Mater. Interfaces 2012, 4, 5966−5973

62. Graphene exfoliation in organic solvents and switching solubility in aqueous media with the aid of amphiphilic block copolymers； Theodosis Skaltsas, Nikolaos Karousis, Hui-Juan Yan, Chun-Ru Wang, Stergios Pispas, and Nikos Tagmatarchis；J. Mater. Chem., 2012, 22, 21507–21512

63. An anti-aromatic isomer of fullerene C60 violating the pentagon adjacent penalty rule； Li-Hua Gan, Qing Chang, Li Xu, Xing-Liang Huang, Chun-Ying Shu, Chun-Ru Wang；Chemical Physics Letters, 2012, 532, 68–71

64. Theoretical investigations of sp-sp² hybridized zero-dimensional fullerenynes； Sheng-Li Zhang, Yong-Hong Zhang, Shi-Ping Huang and Chun-Ru Wang；Nanoscale, 2012, 4, 2839–2842

65. The structures of trimetallic nitride fullerenes M3N@C88: Theoretical evidence of corporation between electron transfer interaction and size effect； Li Xu, Shu-Fei Li, Li-Hua Gan, Chun-Ying Shu, Chun-Ru Wang；Chemical Physics Letters, 2012, 521,81–85

65. Study on the transformation from NaCl-type Na2TiO3 to layered titanate；Y.H. Liu, W.Zhao, W.J.Wang, X.Yang, J.L.Chu, T.Y.Xue, T.Qi, J.Y.Wu, C.R.Wang；Journal of Physics and Chemistry of Solids, 2012, 73, 402–406

66. LiFeSO4F/石墨烯复合材料的制备与电化学性能；郭维，殷雅侠，张亚利，万立骏，郭玉国；电化学，2012, 18(2), 125-130

67.聚合物太阳能电池中富勒烯受体材料研究进展；孟祥悦，蒋礼, 舒春英, 王春儒；科学通报2012,57（36）3437-3449

68. Structural effect and mechanism of C70–carboxyfullerenes as efficient sensitizers against cancer cells； Qiao-Ling Liu, Mi-Rong Guan, Li Xu, Chun-Ying Shu, Chan Jin, Jun-Peng Zheng, Xiao-Hong Fang, Yong-Ji Yang, and Chun-Ru Wang；Small,2012,8（13）,2070-2077

69. Living cell study at the single-molecule and single-cell levels by atomic force microscopy；Xiao-Li Shi, Xue-Jie Zhang, Tie Xia & Xiao-Hong Fang；Nanomedicine, 2012, 7(10), 1625–1637

70. Comparative cytotoxicity study of water-soluble carbon nanoparticles on plant cells； Song Dang, Qiao-Ling Liu, Xue-Jie Zhang, Kang-Min He, Chun-Ru wang, and Xiao-Hong Fang；J. Nanosci. Nanotechnol. 2012, 12(6), 4478-4484

71. The effect of cigarette smoke extract on thrombomodulinthrombin binding: an atomic force microscopy study； Yu-Jie Wei, Xue-Jie Zhang, Li Xu, Shao-Qiong Yi, Yi Li, Xiao-Hong Fang & Hui-Liang Liu；Sci China Life Sci, 2012, 55 (10), 891–897

72.A membrane microdomain-associated protein, arabidopsis flot1, is involved in a clathrin-independent endocytic pathway and is required for seedling development； Rui-Li Li, Peng Liu, Ying-Lang Wan, Tong Chen, Qin-Li Wang, Ursula Mettbach, František Baluška,Jozef Samaj, Xiao-Hong Fang, William J. Lucas, and Jin-Xing Lin；The Plant Cell, 2012, 24, 2105–2122

73. Single-molecule atomic force microscopy on live cells compares aptamer and antibody rupture forces； Meghan B, O’Donoghue, Xiao-Li Shi, Xiao-Hong Fang, Wei-Hong Tan；Anal Bioanal Chem, 2012, 402, 3205–3209

74. Investigation of the interaction between a bivalent aptamer and thrombin by AFM Lin Ge, Gang Jin, and Xiao-Hong Fang；Langmuir,2012,28（51）,707-713

75. Recent progress of molecular imaging probes based on gadofullerenes； Jun-Peng Zheng, Ming-Ming Zhen, Chun-Ru Wang, Chun-Ying Shu；Chinese Journal of Analytical Chemistry, 2012, 40(10) , 1607–1615

76. Maximizing the relaxivity of Gd-complex by synergistic effect of HSA and carboxylfullerene； Ming-Ming Zhen, Jun-Peng Zheng, Lei Ye, Shu-Mu Li, Chan Jin, Kai Li, Dong Qiu, Hong-Bin Han, Chun-Ying Shu, Yong-Ji Yang, and Chun-Ru Wang；ACS Appl. Mater. Interfaces,2012, 4, 3724−3729

77. Effects of fullerene derivatives on bioluminescence and application for protease detection； Jun-Ping Yu, Mi-Rong Guan, Feng-Yun Li, Zhi-Ping Zhang, Chun-Ru Wang,Chun-Ying Shu, Hong-Ping Wei and Xian-En Zhang；Chem. Commun., 2012, 48, 11011–11013

78. Multifunctional imaging probe based on gadofulleride nanoplatform； Jun-Peng Zheng, Qiao-Ling Liu, Ming-Ming Zhen, Feng Jiang, Chun-Ying Shu, Chan Jin, Yong-Ji Yang, Hisham A. Alhadlaq and Chun-Ru Wang；Nanoscale, 2012, 4, 3669–3672

79. Modification on the tribological properties of ceramics lubricated by water using fullerenol as a lubricating additive； Yu-Hong Liu, Xiao-Kang Wang, Peng-Xiao Liu, Jun-Peng Zheng, Chun-Ying Shu, Guo-Shun Pan & Jian-Bin Luo；Sci China Tech Sci, 2012, 55(9), 2656–2661

80. 应用全内反射单分子荧光成像研究蛋白复合物亚基组成；程茗, 李楠, 方晓红；中国科学:化学,2012,42(12),1663-1671