Resume

Dr. Chunli Bai is Professor of Chemistry and President of the Chinese Academy of Sciences (CAS) and President of University of CAS with more than 34,000 graduate students. He graduated from Department of Chemistry, in 1978, received his MS and Ph.D. degrees from CAS Institute of Chemistry in

1981 and 1985, respectively. During 1985-1987, he was at Caltech, the US for advanced study, conducting research in the field of physical chemistry as a research associate. After his return home in 1987, he continued his research at CAS Institute of Chemistry. From 1991 to 1992, he was a visiting professor at Tohoku University in Japan.

His research area involved the structure and property of catalysts, X-ray crystallography of organic compounds, molecular process and EXAFS research on electro-conducting polymers. Since the mid-1980s, he has shifted his research interests to the fields of scanning probe microscopy (SPM), single molecule, molecular nanostructure and self-assembly, molecular nanodevice, and novel nanomaterials.

Dr. Bai’s scientific achievements include contribution in developing new technique and methodology, and the application of them in chemistry and molecular sciences. (1) He is one of the pioneers in the field of scanning probe microscopy, nanoscience and in China. In the mid-1980s while the scanning probe microscope was not yet commercially available, he successfully designed and

1 developed China’s first atomic force microscope (AFM), scanning tunneling microscope (STM), low-temperature STM, ultrahigh vacuum-STM (UHV-STM) and ballistic electron emission microscopy (BEEM). Due to his creative contributions to the solutions of a series of technical problems, he has earned a number of patents of original innovation and application. These achievements were the landmarks of SPM research in China, leading to the earliest technological tools in the country for manipulating single atoms and molecules and characterizing surface and interface in the nano-scale world. (2) He successfully established the methodology for the study of molecular assembly on solid substrate surface in mild chemical and environmental conditions. One of the examples is by using alkane-assisted method, he made it possible to image various functional molecules on graphite surface.

Without the use of UHV, molecules such as phthalocyanines and porphyrins could adsorb on graphite surface by weak-interaction with substrate and resulted in a high-resolution STM imaging. The structural details of a molecule were revealed in its STM image as clearly as those by UHV-STM. The method opened a new way to single molecular study. Furthermore, by the coadsorption method, the different types of molecules could be used to construct functional molecular nanoarchitecture with different symmetries and patterns. The property of these architectures could be in-situ measured. These achievements are crucially important in fabricating molecular self-assembly and understanding the molecular process involved in chemical reaction. (3) On basis of the special methodology and instruments, he made essential progress in molecular nanodevices. With the help of SPM probes, the

2 conductance of molecules such as DNA and optical /electronic molecules could be investigated. Using external stimulation such as UV-light, electric field and thermal treatment, molecules were in-situ polymerized from individual to a nanowire or an integrated pattern on solid surfaces. These artificial nanostructures with novel property could be helpful in the study of prototype of molecular devices. A successful attempt was to use the rectifying property of molecules as a diode in building a molecular circuit in environmental condition. (4) The basis in forming a molecular assembly is mainly the molecular interaction and molecule/substrate reaction. Dr. Bai investigated the principle and interaction existing in molecular assembly. Combined SPM image with theoretical calculation and simulation, he systematically investigated the interactions in several typical functional assembly such as alkane and porphyrin assemblies. His findings in these assemblies provided new insight into molecular self-assembly and surface chemical process.

Based on the above achievements, Dr. Bai has been instrumental in furthering

China’s nanoscience and nanotechnology research both as a scientist and a policy-maker. As the chief scientist of National Steering Committee for Nanoscience and Related Technology, he has initiated and coordinated a number of national key projects about Nano S&T. He is the founding director and Council Chairman of the

National Center for Nanoscience and Technology, China. In 2004!Dr. Bai served as the founding chairperson for the Special Committee on Nanotechnology under the auspices of the China National Board for Laboratories Accreditation, and National

Nanotechnology Standardization Committee in 2005. This effort is aimed at

3 strengthening the metrological capabilities of the research facilities in public institutions as well as manufacturing sectors that are engaged in .

The endeavor has contributed significantly to promote the awareness among entrepreneurs and academia of the importance of standardization in emerging technologies such as nanotechnology in China. In 2013, Because of distinguished achievements in the field of chemistry, Prof. Bai is granted honorary CSJ membership.

Dr. Bai has more than 350 scientific publications in refereed journals and authored 12 monographs and several book chapters in the field. He has won more than twenty prestigious awards and prizes for his academic achievements. He was elected a member of CAS and a fellow of the Academy of Sciences for the

Developing World (TWAS) in 1997. He is also foreign associate of the US National

Academy of Sciences, foreign member of the Russian Academy of Sciences and royal Danish Academy of Sciences and Letters, Member of the German National

Academy of Science and Engineering (acatech.de), Corresponding Fellow of the

Australian Academy of Science!Honorary Fellow of the Indian Academy of

Sciences, the Royal Society of Chemistry, UK and the Chemical Research Society of

India and honorary doctor or named fellowship in several universities of the USA,

UK, Sweden, Demark, Russia, Australia and etc. He is a recipient of the UNESCO first medal “for contributions to the development of nanoscience and nanotechnology” (share with Nobel Laureate Professor Zhores Ivanovich Alferov),

International Medal awarded by the Society of Chemical Industry (London-based)

4 and the TWAS 2002 Medal Lecture in Chemical Sciences.

Because of his meritorious service, he is elected President-elect of TWAS on last September. He is or has served as President of the Federation of Asian Chemical

Societies, President of the Chinese Chemical Society, Honorary President of the

Chinese Society of Micro-Nano Technology (CSMNT), Vice President of the China

Association for Science and Technology, Vice President of the Asia-Pacific

Academy of Materials. He is the member of the International Editorial Advisory

Board of JACS, Angewandte Chemie!Advanced Materials and Chemical Physics

Letters.

5

CURRICULUM VITAE

PERSONAL DATA"""

Name: Bai, Chunli Sex: Male Address: Chinese Academy of Sciences (CAS) 52 Sanlihe Road, Beijing 100864, China Telephone: +86-10-68597606 Fax: +86-10-68526316 E-mail: [email protected]

PROFESSIONAL EXPERIENCE, EDUCATION: 2011- President, Chinese Academy of Sciences (CAS) 2001- President, Graduate University!CAS 2004-2011 Executive Vice President, Chinese Academy of Sciences 1996-2004 Vice President, Chinese Academy of Sciences 2003-2008 Director, National Center for Nanoscience and Technology!China 1992-1996 Professor and Deputy Director, Institute of Chemistry, CAS. Beijing, China Director of Youth Laboratory of the Nanometer-Scale Science and Technology 1991-1992 Visiting Professor, Institute for Materials Research (IMR), Tohoku University, Japan 1987-1991 Professor (1989), Associate Professor (1987), Institute of Chemistry, CAS, China 1985-1987 Research Associate, California Institute of Technology, Pasadena, USA 1982-1985 Doctorate Candidate and Research Associate, Institute of Chemistry, CAS, Beijing China. (Ph.D., March 1985) 1978-1981 Graduate Student, Institute of Chemistry, CAS, Beijing, China. #M.S. 1981) 1974-1978 Undergraduate Student, Department of Chemistry, Peking University, Beijing, China

6

HONORARY AFFILIATIONS WITH ACADEMIC INSTITUTIONS: 1. Member of the Chinese Academy of Sciences (1997) 2. Foreign Associate of National Academy of Sciences, US (2006) 3. Foreign Member of Russian Academy of Sciences, Russia (2008) 4. Fellow of TWAS #The academy of sciences for the developing world, Trieste, Italy (1997) 5. Foreign Member of Royal Danish Academy of Sciences and Letters (2012) 6. Member of the German National Academy of Science and Engineering (acatech.de) (2011) 7. Honorary Fellow, The Indian Academy of Sciences (2008) 8. Honorary Fellow, The Royal Society of Chemistry (HonFRSC), UK (2007) 9. Fellow of The Royal Society of Chemistry (FRSC), UK #2007$ 10. Honorary Fellow, The Chemical Research Society of India#2009$ 11. Corresponding Fellow of the Australian Academy of Science (2012) 12. Honorary CSJ member(2013) 13. Foreign Fellow of the Pakistan Academy of Sciences #2011$. 14. Foreign Member, Mongolian Academy of Sciences (2011) 15. Honorary Doctor, Griffith University, Australia (2012) 16. Honorary Doctorate of Science (DSc), University College London, UK 17. Honorary Doctor, LTH/Lund University, Sweden (2007) 18. Honorary Doctor (dr.scient.h.c.) University of Aarhus, Demark (2007) 19. Honorary Doctor, The University of York, UK (2008) 20. Honorary Doctor, The University of Nottingham, UK (2009) 21. Honorary Doctor, Kazan State Technological University, Tatarstan Republic of the Russian Federation (2007) 22. Honorary Doctor!The University of Minnesota, USA(2011) 23. Honorary Doctor!The University of Queensland, Australia(2010) 24. Honorary Academic Fellow, Roskilde University, Denmark (2008) 25. Honorary Membership of the World Innovation Foundation (Hon.M.W.I.F.)(2006) 26. R.B. Woodward Visiting Scholar, Harvard University (2007) 27. Honorary Professor, University of Queensland, Australia (2006) 28. Honorary Professor, Hong Kong University (2001-) 29. Kipping Visiting Fellowship, The University of Nottingham!UK (2008) 30. Vice President of TWAS, Trieste, Italy (2007-2012) 31. Bureau Member, International Union of Pure and Applied Chemistry (IUPAC)(2001-2009) 32. Member of Executive Committee of IUPAC (2003-2009)

7 33. President of Federation of Asian Chemical Societies (2009-2011) 34. Vice President, Society of Chemical Industry (London) (2004-2006) 35. Member of Kavli Prize Committee in Nanoscience!The Norwegian Academy of Science and Letters(2007-2008) 36. Member of L’OREAL-UNESCO AWARD-International Jury 2009, % Physical Science (Physics &Chemistry) 37. Honorary president of Chinese Society of Micro-Nano Technology (CSMNT)(2005-) 38. Director of Division of Chemistry and member of Executive Committee of the Presidium, CAS (2 004-2012) 39. Executive Chairman of the Presidium of the CAS (2011-) 40. Chief Scientist for the National Steering Committee for Nanoscience and Technology (2000-) 41. President of Chinese Chemical Society (CCS) (1998-2010) 42. Vice President, China Association for Science and Technology (CAST) (2001-2011) 43. President of China Association for Young Scientists and Technicians (1996-2006) 44. Vice President of Western Returned Scholars Association (WRSA) (1995-2003) 45. President, American Chapter of WRSA,(2003-2008) 46. Honorary President, American Chapter of WRSA (2008) 47. Vice President of Chinese Material Research Society (2000-2007) [Standing Council Member (1995-2000)] 48. Vice Chairman of National Science and Technology Award Committee of China (2002-) 49. Board Member of Academic Degree Committee of the State Council, China (2000-2012) 50. Standing Council Member of Chinese Crystallographic Society (CCrS) (1994-2004)

ACADEMIC AWARDS AND PRIZES: 2012 The 3rd “Chemistry Contribution Prize of Chinese Chemical Society-China petroleum & Chemical Cooperation 2010 UNESCO Medal of “Contributions to Development of Nanoscience and Nanotechnology” 2006 The 1st place Beijing Science and Technology Advancement Award 2004 HLHL Prize (Chemistry), Ho Leung Ho Lee Foundation (Hong Kong) 2002 Medal Lecture in Chemical Science, the Academy of Sciences for the Developing World (TWAS), (Trieste, Italy) 2002 China’s 1st Top Ten Pioneers of Science and Technology 2001 The 1st place Yunnan Science and Technology Advancement Award 2001 International Medal, Society of Chemical Industry (London, UK) 1999 The 2nd place PLA Science and Technology Advancement Award 1998 The 2nd place Science and Technology Advancement Award (State Education Commission)

8 1998 The 2nd place Beijing Science and Technology Advancement Award 1998 The 2nd place Shanghai Science and Technology Advancement Award (for the Book entitled &Scanning Tunneling Microscopy and its Application') 1997 Outstanding Scholar Award (National wide),The Hong Kong Polytechnic University 1997 The 2nd place CAS Natural Science Award 1995 Outstanding Young Scholars, Hong Kong Qiu Shi Sci. & Tech. Foundation 1995 The 2nd place PLA Science and Technology Advancements Award 1994 China Young Scientist Award 1994 The 2nd place CAS Natural Science Award 1992 The 3rd place National Science and Technology Advancements Award (State Council) 1991 The 1st place Science and Technology Advancement Award (CAS) 1991 Ph.D. Recipient with Outstanding Contributions (State Council and State Education Commission) 1990 China Young Science and Technology Prize (China Association for Science and Technology) 1990 National Level Expert with Outstanding Contributions (State Council) 1990 The 2nd place National Science and Technology Advancements Award (State Council) 1989 Young Chemist Award (Chinese Chemical Society) 1989 Young Scientist Award (CAS) 1989 The 2nd place Science and Technology Advancements Award (CAS) 1989 The 2nd place Science and Technology Advancements Award (CAS)

9

EDITORIAL BOARDS:

Member of International Editorial Advisory Board of J. Am. Chem. Soc. (2006-) Member of International Editorial Advisory Board of Angewandte Chemie. (2006-2009) Member of International Editorial Advisory Board of Advanced Materials. (2006-) Member of International Editorial Advisory Board of Chemistry- An Asian Journal (2006-) Member of Editorial Advisory Board of Small (2006-) Member of Editorial Advisory Board of ACS Nano (2007) Member of Advisory Editorial Board of Chemical Physics Letters (2007-) Managing Editor, NANO (2006-) Editor-in-Chief, Asia Pacific office, Nanoscale(2009-) Consulting Editor of International J. of Biomedical Nanoscience and Nanotechnology (2010) Founding Editor-in-Chief, Frontiers of Materials Science in China (2007-2009) Chairman of Editorial Board of Science & Technology Review (2001-2011) Asian Editor of J. Nanoscience and Nanotechnology (2005-) Editor-in-chief, China Basic Science (1999-2004) Editor-in-chief, Nanoscience and Nanotechnology Grand Series (2009-) Member of Editorial Board of the Journal of Nanoparticle Research (1999-) Member of Editorial Board of Nanotechnology (2007-2009) Consulting Editor of International Journal of Biomedical Nanoscience and Nanotechnology#2008$

10

PUBLICATION LISTS

1. BOOKS ------1. Nanoscience and Nanotechnologies!ENCYCLOPEDIA OF LIFE SUPPORT SYSTEMS(EOLSS)!Chunli Bai (2010) 2. “Great Series of Nano Science and Technolgy”, Edited by Chunli Bai, Science Press, Beijing(2010) 3. “Frontiers of Molecular Science” Edited by Chunli Bai, Science Press, Beijing(2007) 4. “Nanotechnology Research in China”, Chunli Bai and Chen Wang in “Innovation with Chinese Characteristics” Palgrave Macmillan, Great Britain (2007), Edited by Linda Jakobson. 5. “Single Molecule Chemistry and Physics” Chen Wang and Chunli Bai, Springer-Verlag, Berlin, Heidelberg (2006) 6. “Template Effects of Molecular Assemblies Studies by Scanning Tunneling Microscopy” Chen Wang and Chunli Bai in “Applied Scanning Probe Methods II-IV, Springer-Verlag (2006), B Bhushan and H. Fuchs (eds.). 7. “Scanning Tunneling Microscopy and its Application”, Chunli Bai, Springer-Verlag, Berlin, Heidelberg(1995) (Second, Revised Edition 2000) 8. “Molecular Wires and Switches”, C. Wang, C. Bai in “Encyclopedia of Nanoscience and Nanotechnology”. New York: American Scientific Publishers (2003), Edited by H. S. Nalwa. 9. “Nanoscience and Nanotechnology: the Present and the Future”, Chunli Bai, Sichuan Edu. Publisher, Chengdu (2001) 10. “Single Molecular Science and Technology”, Chunli Bai, Press of Tsinghua Edu. Beijing (2000) 11. “Scanning Force Microscopy”, Chunli Bai, Fang Tian, Ke Luo, Sci. Press, Beijing (2000) 12. “Diversity of Necleic Acid Structures”, Ciquan Liu, Enhua Cao, Chunli Bai, et al., Press

11 of Higher Edu. Beijing (2000) 13. “Electron Tunneling Effects in Surface Science”, Chen Wang, Chunli Bai, Press of Central China Normal University, Wuhan (1998) 14. “Structural Molecular Biology”,Ciquan Liu, Chunli Bai, Jing Zhang, Press of Higher Edu., Beijing (1997) 15. “Structure and Biochemistry of Triple-stranded Nucleic Acid”, Chunli Bai, Ye Fang, Youqi Tang, Sci. Press, Beijing (1996) 16. “Nanometer-Scale Science and Technology”, Chunli Bai, Yunnan Sci.& Technol. Publisher, Kunming (1995) 17. “Observation and Manipulation of Atoms and Molecules”, Chunli Bai, Hunan Edu. Publisher,Changsha (1994) 18. “Scanning Tunneling Microscopy”, Chunli Bai, Shanghai Sci.& Technol.Publishers, Shanghai (1992)

2. SELECTED RECENT PUBLICATIONS

1. Formation and Structural Transition of Molecular Self-assembly on Solid Surface Investigated by Scanning Tunneling Microscopy, Dong Wang, Lijun Wan, Chunli Bai, Mater. Sci. Eng. Rep., 2010!70!169-187.

2. Molecular miscibility characteristics of self-assembled 2D molecular architecture, Xiaojing Ma,Yanlian Yang, Ke Deng, Qingdao Zeng, Keqing Zhao, Chen Wang and Chunli Bai, J. Mater. Chem., 2008 18, 2074-2081.

3. Crossing borders, challenging boundaries: Reflections on a decade of exchange at the Chinese-American Kavli Frontiers of Science Symposium” Chunli Bai and Jinghua Cao, Proc. Natl. Acad. Sci. U. S. A. (PNAS), 2008, 105(4), 1101-1102.

4. A simple method to synthesize layered double hydroxide nanoscrolls, Lingling Ren, Jinsong Hu, Lijun Wan, Chunli Bai, Materials Research Bulletin, 2007,42,571-575.

5. Ascent of nanoscience in China, Chunli Bai, Science, 2005,309 (5731):61-63.

6. Mesoscopic self-organization of a self-assembled supramolecular rectangle on highly oriented pyrolytic graphite and Au(111) surfaces, J.R.Gong, L.J.Wan, Q.H.Ruan, C.L.Bai, H.Jude, P.J.Stang, PNAS, 2005, 102(4),971-974.

7. Mass production and high photocatalytic activity of ZnS nanoporous nanoparticles, J.S.Hu,L.L.Ren,Y.G.Guo,H.P.Liang,A.M.Cao,L.J.Wan,C.L.Bai, Angew. Chim. Inter. Edit., 2005, 44(8), 1269-1273.

8. Tin/platinum bimetallic nanotube array and its electrocatalytic activity for methanol

12 oxidation, Y.G.Guo,J.S.Hu, H.M.Zhang,H.P.Liang,L.J.Wan,C.L.Bai, Advanced Materials, 2005, 17(6),746.

9. Template synthesis of SC@C-82 nanowires and nanotubes at room temperature, C.J.Li,Y.G.Guo,B.S.Li,C.R.Wang,L.J.Wan,C.L.Bai, Advanced Materials, 2005, 17(1),71.

10. Pt hollow nanospheres: Facile synthesis and enhanced electrocatalysts; Hanpu Liang, Huimin Zhang, Jinsong Hu, Yuguo Guo, Lijun Wan, and ChunLi Bai, Angew. Chem. Int. Ed, 2004, 43, 1540-1543.

11. Configurations of a Calix[8]arene and a C60/Calix[8]arene Complex on a Au(111) Surface, Ge-Bo Pan, Jun-Min Liu, Hui-Min Zhang, Li-JunWan, Qi-Yu Zheng, and Chun-Li Bai, Angew. Chem. Int. Ed. 2003, 42, 2747 – 2751

12. Direct observation of the ordering and molecular folding of poly[(m-phenylenevinylene)-co-(2,5-dioctoxy-p-phenylenevinylene)] ( Shengbin Lei, Lijun Wan, Chen Wang, Chunli Bai!Advanced Materials, 2004, 16, 828-831.

13. TiO2-based composite nanotube arrays prepared via layer-by-layer assembly, Y.G.Guo,J.S.Hu,H.P.Liang,L.J.Wan,C.L.Bai, Advanced Functional Materials, 2005, 15(2), 196-202.

14. Ni-Pt Multilayered nanowire arrays with enhanced coercivity and high remanence ratio, H.P.Liang,Y.G.Guo,J.S.Hu,C.F.Zhu,L.J.Wan,C.L.Bai, Inorg. Chem.,2005, 44(9),3013-3015.

15. Direct evidence of molecular aggregation and degradation mechanism of organic light-emitting diodes under joule heating: an STM and photoluminescence study, J.R.Gong,L.J.Wan,S.B.Lei,C.L.Bai,X.H.Zhang,S.T.Lee, J. Phys. Chem. B, 2005, 109(5),1675-1682.

16. Gold hollow nanospheres:tunable surface plasmon resonance controlled by interior-cavity sizes, H.P.Liang,L.J.Wan,C.L.Bai,L.Jiang, J.Phys.Chem. B, 2005, 109(16),7795-7800.

17. Template induced inclusion structures with copper(II) phthalocyanine and coronene as guests in two-dimensional hydrogen-bonded host networks; Jun Lu, Shengbin Lei, Qingdao Zeng, Shizhao Kang, Chen Wang, Lijun Wan, Chunli Bai, J. Phys. Chem. B, 2004, 108, 5161-6165.

18. Electrochemical construction of novel C60 derivative/PPV composite adlayer on Cu(111)

13 and their current/voltage characteristics; Meijuan Han, Lijun Wan, shengbin Lei, Hongmei Li, Xiaolin Fan, Chunli Bai, Yuliang Li, and Daoben Zhu, J. Phys. Chem. B 2004, 108, 965-970.

19. STM study of two-dimensional assemblies of tricarboxylic acid derivatives on Au(111); Huijuan Yan, Jun Lu, Lijun Wan, Chunli Bai, J. Phys. Chem. B, 2004, 108 (31), 11251-1125

20. Siteselective adsorption and templated assembling: effects of organic-organic heterogeneous interface studied by scanning tunneling microscopy(Shengbin Lei, Chen Wang, Lijun Wan, Chunli Bai, J. Phys. Chem. B., 2004, 108, 1173-117

21. Potential induced phase transition of trimesic acid adlayer on Au(111)(Guijin Su, Huimin Zhang, Lijun Wan, Chunli Bai, and Thomas Wandlowski, J. Phys. Chem., B 2004, 108, 1931-1937.

22. Identification of the preferential-bonding effect of disubstituted alkane derivatives using scanning tunneling microscopy; Sailong Xu, Shuxia Yin, Hanpu Liang, Chen Wang, Lijun Wan, and Chunli Bai, J. Phys. Chem. B 2004, 108, 620-624

23. Interface assembly synthesis of inorganic composite hollow spheres, Jin-Song Hu, Yu-Guo Guo, Han-Pu Liang, Li-Jun Wan, Chun-Li Bai, Yan-Guo Wang, J. Phys. Chem. B, 2004, 108, 9734-9738.

24. Selective adsorption of copper phthalocyanine atop functionalized organic monolayers; Shengbin Lei, Shuxia Yin, Chen Wang, Lijun Wan, and Chunli Bai, J. Phys. Chem. B 2004, 108, 224-227.

25. Formation of porous films and vesicular fibers via self-organization of an amphiphilic chiral oligomer; Bingshi Li, Junwu Chen, Chuanfeng Zhu, Kevin K.L. Leung, Lijun Wan, Chunli Bai, and Benzhong Tang, Langmuir, 2004, 20, 2515-2518.

26. Direct STM investigation of cinchona alkaloid adsorption on Cu(111); Qingmin Xu, Dong Wang, Meijuan Han, Lijun Wan, Chunli Bai, Langmuir, 2004, 20 (8), 3006-3010

27. Self-assembling of helical poly(Phenylacetylene) carrying L-Valine pendants in solution, on mica substrate, and on water surface; Bing Shi Li, Shi Zhao Kang, Kevin K.L. Cheuk, Lijun Wan, Liansheng Ling, ChunLi Bai, and Ben Zhong Tang, Langmuir 2004,20, 7598-7603

28. Adsorption and coordination of tartaric acid enantiomers on Cu(111) in aqueous solution, Huijuan Yan, Dong Wang, Meijuan Han, Lijun Wan, Chunli Bai, Langmuir, 2004, 20 (18), 7360-7364

14 29. Tunneling characteristics of octadecyl derivatives on tin and indium electrodes; Yuhong Liu, Xiaolin Fan, Deliang Yang, Chen Wang, Lijun Wan, and Chunli Bai, Langmuir 2004, 20, 855-861.

30. Stacking behavior of 2-D assemblies of octa-alkoxyl-substituted phthalocyanine studied by scanning tunneling microscopy; Yuhong Liu, Shuxia Yin, Chichiu Ma, Guanhua Chen, Chen Wang, Lijun Wan, Chunli Bai, Surface Science, 2004, 559, 40-46.

31. A direct observation on the surface assembling and ordering of coumarin derivatives on the graphite surface; Lili Pan, Qingdao Zeng, Jun Lu, Dongxia Wu, Shandong Xu, Zhongyin Tan, Lijun Wan, Chen Wang, Chunli Bai, Surface Science, 2004, 559, 70-76.

32. Absolute configuration of monodentate phosphine ligand enantiomers on Cu(111); Meijuan Han, Dong Wang, Jumin Hao, Lijun Wan, Qingdao Zeng, Qinghua Fan, and Chunli Bai, Anal. Chem. 2004, 76, 627-631.

33. Signaling aptamer/protein binding by a molecular light switch complex, Yaxin Jiang, Xiaohong Fang, Chunli Bai, Anal. Chem., 2004, 76 (17), 5230-5235.

34. The effects of annealing on the structures and electrical conductivities of fullerene-derived nanowires; Yuguo Guo, Lijun Wan, Congju Li, Dongmin Chen, Chen Wang, Chunru Wang, Chunli Bai, and Yanguo Wang, J. Mater. Chem., 2004, 14, 914-918

35. Controllable aupt bimetallic hollow nanostrucres; HanPu Liang, YuGuo Guo, Hui Min Zhang, JinSong Hu, LiJun Wan and ChunLi Bai, Chem. Commun., 2004, 1496-1497.

36. Measuring specific interaction of transcription factor ZmDREB1A with its DNA responsive element at the molecular level; Yaxin Jiang, Feng. Qin, Yiqin. Li, Xiaohong Fang, Chunli Bai, Nucleic Acids Research, 2004, 32 (12), e101

37. Configurations of a Calix[8]arene and a C60/Calix[8]arene Complex on a Au(111) Surface, Ge-Bo Pan, Jun-Min Liu, Hui-Min Zhang, Li-JunWan, Qi-Yu Zheng, and Chun-Li Bai, Angew. Chem. Int. Ed. 2003, 42, 2747 – 2751

38. Solvent effects on the chirality in two-dimensional molecular assemblies; Cong-Ju Li, Qing-Dao Zeng, Chen Wang, Li-Jun Wan, Sai-Long Xu, Chun-Ru Wang, and Chun-Li Bai, J. Phys. Chem. B 2003, 107, 747-750

39. Photodimerization of P2VB on Au(111) in solution studied with scanning tunneling microscopy; Guang-Zheng Yang, Li-Jun Wan, Qing-Dao Zeng, and Chun-Li Bai, J. Phys. Chem. B 2003, 107, 5116-5119

40. Gold/Titania Core/Sheath nanowires prepared by layer-by-layer assembly; Yu-Guo Guo,

15 Li-Jun Wan, and Chun-Li Bai, J. Phys. Chem. B 2003, 107, 5441-5444

41. Effect of chemical structure on the adsorption of amino acids with aliphatic and aromatic substitution groups: in situ STM study; Dong Wang, Sheng-Bin Lei, Li-Jun Wan, Chen Wang, and Chun-Li Bai, J. Phys. Chem. 2003, 107, 8474-8478

42. The two-dimensional self-assembled n-alkoxy-substituted stilbenoid compounds and triphenylenes studied by scanning tunneling microscopy; Shan-Dong Xu, Qing-Dao Zeng Jun Lu, Chen Wang, Li-Jun Wan, Chun-Li Bai, Surface Science, 2003, 538, 451– 459

43. Synthesis of a novel axially chiral amphiphile and study on its assembly behavior in two and three dimensions; Jun Lu, Shi-Zhao Kang, Sai-Long Xu, Qing-Dao Zeng, Chen Wang, Li-Jun Wan, Chun-Li Bai, Chem. Commun., 2003, 1498-1499

44. Evidence of a thermal annealing effect on organic molecular assembly; Cong-Ju Li, Qing –Dao Zeng, Yu-Hong Liu, Li-Jun Wan, Chen Wang, Chun-Ru Wang, and Chun-Li Bai, ChemPhysChem, 2003, 4, 857-859

45. Langmuir film behaviors of dendrons at water-air interface; Shi-Zhao Kang, Sai-Long Xu, Guo-Jun Deng, Peng Wu, Qing-Hua Fan, Chen Wang, Li-Jun Wan, Chun-Li Bai, Chemical Physics Letters, 2003, 370, 542-547

46. Adsorption of enantiomeric and racemic tyrosine on Cu(111): A scanning tunneling microscopy study; Dong Wang, Qing-Min Xu, Li-Jun Wan, Chun-Li Bai, and Gang Jin, Langmuir, 2003 , 19, 1958-1962

47. Site-Selective adsorption of benzoic acid using an assembly of tridodecylamine as the molecular template; Sheng-Bin Lei, Chen Wang, Xiao-Lin Fan, Li-Jun Wan, and Chun-Li Bai, Langmuir 2003, 19, 9759-9763

48. Molecular organization of alkoxy-substituted oligo(phenylene-ethynylene)s studied by scanning tunneling microscopy; Jian-Ru Gong, Jing-Ling Zhao, Sheng-Bin Lei, Li-Jun Wan, Zhi-Shan Bo, Xiao-Lin Fan, and Chun-Li Bai, Langmuir 2003, 19, 10128-10131

49. Study of Citrate adsorbed on the Au(111) surface by scanning probe microscopy; Yi Lin, Ge-Bo Pan, Gui-Jin Su, Xiao-Hong Fang, Li-Jun Wan, and Chun-Li Bai, Langmuir 2003, 19, 10000-10003

50. Voltage-dependent scanning tunnelling microscopy images of a copper complex on graphite; Zhi-Gang Wang, Qing-Dao Zeng, Yan-Bing Luan, Xiao-Jun Wu, Li-Jun Wan, Chen Wang, Gil U Lee, Shu-Xia Yin, Jin-Long Yang, and Chun-Li Bai, J. Phys. Chem. B 2003, 107, 13384-13388

16 51. Tuning molecular orientation with STM at the solid/liquid interface; Qing-Min Xu, Mei-Juan Han, Li-Jun Wan, Chen Wang, Chun-Li Bai, Bing Dai and Jin-Long Yang, Chem. Commun., 2003, 2874-2875

52. Adlayer Structures of Calixarenes on Au(111) Surface Studied with STM; Ge-Bo Pan, Jian-Hua Bu, Dong Wang, Jun-Min Liu, Li-Jun Wan, Qi-Yu Zheng, and Chun-Li Bai, J. Phys. Chem. B 2003, 107, 13111-13116

53. Highly ordered adlayers of three calix[4]arene derivatives on Au(111) surface in HCIO4 solution: in situ STM study; Ge-Bo Pan, Li-Jun Wan, Qi-Yu Zheng, Chun-Li Bai, Chemical Physics Letters, 2003, 367, 711-716

54. Thermally stimulated transition in tunneling characteristics of molecular junction of tin/octadecanol/tin; Yuhong Liu, Xiaolin Fan, Deliang Yang, Chen Wang, Lijun Wan, Chunli Bai, Chemical Physics Letters 2003, 380, 767-773

55. Assembling nanometer nickel particles into ordered arrays; Sheng-Bin Lei, Chen Wang, Shu-Xia Yin, Li-Jun Wan, and Chun-Li Bai, ChemPhysChem, 2003, 4, 1114-1117

56. Well-defined fullerene nanowire arrays; Yu-Guo Guo, Cong-Ju Li, Li-Jun Wan, Dong-Min Chen, Chun-Ru Wang, Chun-Li Bai, and Yan-Guo Wang, Adv. Funct. Mater. 2003, 13, 626-630

57. Novel electrocatalytic activity in layered Ni-Cu nanowire arrays; Hui-Min Zhang, Yu-Guo Guo, Li-Jun Wan and Chun-Li Bai, Chem. Commun., 2003, 3022-3023

58. Synthesis and hierarchical structures of amphiphilic polyphenylacetylenes carrying L-Valine pendants; Bing-Shi Li, Kevin K. L. Cheuk, Lian-Sheng Ling, Jun-Wu Chen, Xu-Dong Xiao, Chun-Li Bai, and Ben-Zhong Tang, Macromolecules, 2003, 36, 77-85

59. Self-Assembling of an amphiphilic polyacetylene carrying l-leucine pendants: A Homopolymer case; Bing Shi Li, Kevin K. L. Cheuk, De-Liang Yang, Jacky W.Y.Lam, Li-Jun Wan, Chun-Li Bai, and Ben Zhong Tang, Macromolecules, 2003, 36, 5447-5450

60. Specific aptamer-protein interaction studied by ; Ya-Xin Jiang, Chuan-Feng Zhu, Lian-Sheng Ling, Li-Jun Wan, Xiao-Hong Fang, Chun-Li Bai, Anal. Chem. 2003, 75, 2112-2116

61. STM observation of 1,3,5-triazines bearing rod-like benzeneazonaphthalene moieties monolayers self-assembled on graphite surface; Yinghong Qiao, Qingdao Zeng, Zhongyin Tan, Shandong Xu, Chen Wang and Chunli Bai, J. Mater Chem, 2002,12,1239-1241

62. A Dimeric structure of bacteriochlorophyllide c molecules studied by scanning tunneling

17 microscopy; Qingmin Xu, Lijun Wan, Shuxia Yin, Chen Wang, Chunli Bai, Takasada Ishii, Kaku Uehara, Zhengyu Wang, and Tsunenori Nozawa, J. Phys. Chem. B 2002, 106, 3037-3040

63. Self-Assembly of cationic surfactants on a graphite surface studied by STM; Sailong Xu, Chen Wang, Qingdao Zeng, Peng Wu, Zhi-gang Wang, Haike Yan, and Chunli Bai, Langmuir 2002, 18, 657-660

64. Real space visualization of the disklike assembly structure of dendritic molecules on graphite; Peng Wu, Qinghua Fan, Guojun Deng, Qingdao Zeng, Chen Wang, and Chunli Bai, Langmuir 2002, 18, 4342-4344

65. Adlayer structure of P2VB on iodine modified Au(111) in solution, Guangzheng Yang, Qingdao Zeng, Lijun Wan, Chunli Bai, Surf. Sci., 2002, 511, 298-302

66. Discriminating chiral molecules of (R)-PPA and (S)-PPA in aqueous solution by ECSTM, Qing-Min Xu, Dong Wang, Li-Jun Wan, Chen Wang, Chun-Li Bai, Guo-Qiang Feng, Mei-Xiang Wang, Angew Chem. Int. Ed., 2002!41(18),3408-3411

67. In situ electrochemical STM of charge-transfer complex on Cu(111), Qing-Min Xu, Bin Zhang, Li-Jun Wan, Chen Wang, Chun-Li Bai, Dao-Ben Zhu, Surf. Sci., 2002, 517, 52-58

68. Observation of functional group mediated assembling of dendritic molecules by STM, Peng Wu, Qinghua Fan, Qingdao Zeng, Chen Wang, Guojun Deng, Chunli Bai, ChemPhysChem, 2002, 7, 633-637

69. Scanning tunneling microscopy image contrast variation on a copper (II) complex adlayer with tip-sample seperation, Zhigang Wang, Qingdao Zeng, Lijun Wan, Chen Wang, Shuxia Yin, Chunli Bai, Xiaojun Wu, Jinlong Yang, Surf. Sci., 2002, 51, 436-440

70. Preparation and dispersion of Ni-Cu composite nanoparticles, Yu-Guo Guo, Li-Jun Wan, Jian-Ru Gong, Chun-Li Bai, Phys. Chem. Chem. Phys., 2002, 4, 3422-3424

71. Adlayer structure of pyridine, pyrazine and triazine on Cu(111): an in situ scanning tunneling microscopy study, Dong Wang, Qing-Min Xu, Li-Jun Wan, Chen Wang, Chun-Li Bai, Langmuir, 2002, 18, 5133-5138

72. In situ STM evidence for adsorption of rhodamine B in solution, Dong Wang, Li-Jun Wan, Chen Wang, Chun-Li Bai, J. Phys. Chem. B, 2002, 106, 4223-4226

73. In Situ STM Studies of Phenolic Compounds on Cu(111) Surface in Solution ; Guo-Xiu Wei, Ge-Bo Pan, Li-Jun Wan, Jin-Cai Zhao, Chun-Li Bai, Surf. Sci., 2002!520!625-632

18

74. Adlayer structures of organic molecules with different functional groups on Cu(111) in Solution, Mei-Juan Han, Qing-Min Xu, Li-Jun Wan and Chun-Li Bai, J. Phys. Chem. B, 2002,106, 11272-11276

75. Self-assembled two dimensional hexagonal networks; Jun Lu, Qing-dao Zeng, Chen Wang, Qi-yu Zheng, Lijun Wan, Chunli Bai, J. Mater Chem, 2002, 12, 2856-2858

76. Studies of CuPc Adsorption on Graphite Surface and Alkane Adlayer; Shuxia Yin, Chen Wang, Bo Xu, and Chunli Bai, J. Phys. Chem. B 2002, 106, 9044-9047

77. Moleculer rectifier fabricated by capillary tunnel junctions, Fan Xiaolin, Wang Chen, Yang Deliang, Wan Lijun, Bai Chunli, Chem. Phys. Lett. 2002, 361, 465-468

78. Structure-governed growth phenomenon of a trichosanthin crystal, Bing Shi Li, Geng Pei Li, Chen Wang, Miao Wang, Da Cheng Wang, and Chunli Bai, Langmuir ,2002, 18, 6723-6726

79. Adsorption mode of cinchonidine on Cu(111) surface, Qing-Min Xu, Dong Wang, Li-Jun Wan, Chun-Li Bai, Yuan Wang!J. Am. Chem. Soc. 2002!124, 14300-14301.

80. In situ electrochemical STM of charge-transfer complex on Cu(111), Qing-Min Xu, Bin Zhang, Li-Jun Wan, Chen Wang, Chun-Li Bai, Dao-Ben Zhu, Surface Sciences, 2002, 517, 52-58.

81. Molecular trapping phenomenon of the 2-D Assemblies of Octa-Alkoxyl-Substiuted phthalocyanine studied by scanning tunneling microscopy; Yuhong Liu, Shengbin Lei, Shuxia Yin, Sailong Xu, Qiyu Zheng, Qingdao Zeng, Chen Wang, Lijun Wan, Chunli Bai, J. Phys. Chem. B.2002, 106,12569-12574

82. Highly ordered adlayers of three caliz[4]arene derivatives on Au(111) surface in HCIO4 solution: in situ STM study; Ge-Bo Pan, Li-Jun Wan, Qi-Yu Zheng, Chun-Li Bai, Chemical Physics Letters 2002, 367, 711-716

83. Molecular Symmetry Breaking and Chiral Expression of Discotic Liquid Crystals in Two-Dimensional Systems, Congju Li, Qingdao Zeng, Peng Wu, Sailong Xu, Chen Wang, Yinghong Qiao , Lijun Wan, Chunli Bai, J. Phys. Chem., 2002, 106, 13262-13267

84. Tuning the Chain Helicity and Organizational Morphollgy of an L-Valine-Containing Polyacetylene by pH Change; Bing Shi Li, Kevin K. L. Cheuk, Fouad Salhi, Jachy W. Y. Lam, John A. K. Cha, Xudong Xiao, Chunli Bai, and Ben Zhong Tang, Nano Lett 1(6), 2001, P323-328

85. Studies of the Effects of Hydrogen Bonding on Monolayer Structures of C18H37X

19 (X=OH, SH) on HOPG; Shuxia Yin, Chen Wang, Qingmin Xu, Shengbin Lei, Lijun Wan, Chunli Bai, Chem. Phys. Lett. 2001, 348(3-4), P321-328

86. Surface Stabilized Porphyrin and Phthalocyanine Two-Dimensional Network Connected by Hydrogen Bonds; S. B. Lei, C. Wang, S. X. Yin, H. N. Wang, F. Xi, H. W. Liu, B. Xu, L. J. Wan, C. L. Bai, J. Phys. Chem. B, 2001, 105, 10838-10841

87. Single Molecular Arrays of Phthalocyanine Assembled with Nanometer Sized Alkane Templates; S. B. Lei, C. Wang, S. X. Yin, C. L. Bai, J. Phys. Chem. B, 2001, 105, 12272-12277

88. Molecular Superlattices Induced by Alkyl Substitutions in Self-Assembled Triphenylene Monolayers; Peng Wu, Qingdao Zeng, Shandong Xu, Chen Wang, Shuxia Yin, Chunli Bai, ChemPhysChem, 2001, 12, P750-754

89. Adlayer Structures of Benzene and Pyridine Molecules on Cu(100) in Solution by ECSTM; Li Jun Wan, Chen Wang, Chunli Bai, and Masatoshi Dsawa, J. Phys. Chem. B 2001,105, P8399-8402

90. New structure of L-Cysteine Self-Assembled Monolayer on Au(111): Studies by In Situ Scanning Tunneling Microscopy; Qing Min Xu, Li Jun Wan, Chen Wang, Chunli Bai, Zheng Yu Wang, and Tsunenori Nozawa, Langmuir 2001, 17, P6203-6206

91. Controlled Orientation of Individual Molecules by Electrode Potentials; Li Jun Wan, Hiroyuki Noda, Chen Wang, Chunli Bai, and Masatoshi Osawa, Chem Phys Chem 2001, 10, P617-619

92. In Situ Scanning Tunneling Microscopy Study of Adsorption of Diaza-15-crown-5 on Cu(111); Dong Wang, Qing-Min Xu, Li-Jun Wan, Chen Wang, Chun-Li Bai, Surf. Sci., 2001, 489, P568-P572

93. Shear Force Scanning Near-field Optical Microscope Based in a Piezoelectric Bimorph Cantilever; G. Y. Shang, C. Wang, J. Wu , and C. L. Bai, F. H. Lei, Rev. Sci. Instrum., 72(5) 2001, P2344-2349

94. Investigation of Nanoscale Frictional Contact by Friction Force Microscopy; Zhongqing Wei, Chen Wang, and Chunli Bai, Langmuir 2001, 17, P3945-3951

95. Effect of Chemically Modified Tips on STM Imaging of 1-Octadecanethiol Molecule( Qingmin Xu, Lijun Wan Shuxia Yin, Chen Wang, Chunli Bai, J. Phys. Chem. B,2001, 105, 10465-10467

20

96. Self-assembly and immobilization of metallophthalocyanines by alkyl substituents observed with scanning tunneling microscopy; Xiaohui Qiu, Chen Wang, Shxia Yin, Qingdao Zeng, Bo Xu, and Chunli Bai, J. Phys. Chem. B 104, 2000, P3570-3574

97. Surface imaging of fragile materials with hydrophobic atomic force microscope tips, Z.Q. Wei, C.Wang, C.L. Bai, Surface Science 467, 2000, P185-190

98. Stabilization effect of alkane buffer layer on formation of nanometer-sized metal phthalocyanine domains; Bo Xu, Shuxia Yin, Chen wang, Xiaohui Qiu, Qingdao Zeng, Chunli Bai, J. Phys. Chem. B 2000, 104, 10502-10505

99. Atomic force microscopy of photolysis of azobisisobutyronitrile in the solid state; Qingdao Zeng, Chen Wang, and Chunli Bai, Chemistry Letters 2000, P164-165

100.Alkane-assisted adsorption and assembly of phthalocyanines and porphyrins; Xiaohui Qiu, Chen Wang, Qingdao Zeng, Bo Xu, Shuxia Yin, Hongna Wang, Shandong Xu, and Chunli Bai, J. Am. Chem. Soc. 122, 2000, P5550-5556

101.Study on single-bond interaction between amino-terminated organosilane self-assembled monolayers by atomic force microscopy; Z.Q. Wei, C. Wang, C. F. Zhu, C. Q. Zhou, B. Xu, C. L. Bai, Surface Science, 459, 2000, P401-412

102.Atomic force microscopy of solid-state reaction of alcohol: Substitution and dehydration; Qingdao Zeng, Chen Wang, and Chunli Bai, Yan Li and Xinjian Yan, J. Vac. Sci. Technol. B. 18(1), 2000, P64-68

103.Atomic force microscopy of photolysis of azobisisobutyronitrile in the solid state; Qingdao Zeng, Chen Wang, and Chunli Bai, Chemistry Letters 2000, P164-165

104.Atomic force microscopy of reaction of ammonia gas with crystalline substituted benzoic acid; Qingdao Zeng, Chen Wang, Chunli Bai, Yan Li and Xinjian Yan, J. Vac, Sci. Technol., B18(16) 2000, P2658-2663

105.Surface imaging of fragile materials with hydrophobic atomic force microscope tips, Z.Q. Wei, C.Wang, C.L. Bai, Surface Science 467, 2000, P185-190

106.Enhancement of resolution of DNA on silylated mica using atomic force microscopy;

21 Jing Tang, Junwei Li, Chen Wang, and Chunli Bai, J. Vac. Sci. Technol. B18(4) 2000, P1858-1860

107.Atomic force microscopy analysis of intermediates in cobalt Hexammine-Induced DNA condensation; Dage Liu, Chen Wang, Junwei Li, Zhang Lin, Zukun Tan and Chunli Bai, Journal of Biomolecular Structure and Dynamics 18(1) 2000, P1-9

108.Implantation of nanomaterials and nanostructures on surface and their applications, Chunli Bai, Minghua Liu. Nano today. (2012)7,p258-281

2. PUBLICATIONS (1984-1999) 1. Structure of 5-(N-methyl--naphthylamino)-penta-2,4-dienal C16H15NO; C. Bai, Z. Yu, H. Fu, and Y. Tang, Jiegou Huaxue (J.Struct. Chem), 3(1), 69(1984)

2. Studies on the structure of forked conjugative systems: the conformation of 3-acetyl-8-phenyl-3, 5,7-octatrienone-2; Chunli Bai, Heng Fu and Youqi Tang, Scientia Sinica, B28(11), 1143(1985)

3. Studies on the structure of forked conjugative systems: the crystal structure and conformation of 2-benzoylthiophene;Chunli Bai,Heng Fu, Mingqian zhang and Youqi Tang, Scientia Sinica, B29(6)561, (1986)

4. Investigations on the Crystal structure of 2-(m-cyano-phenyl)-5-cyanobenzothiazole and conformations of its isomers; Chunli Bai, H. Fu, Z. Zhang, and Y. Tang, SCIENTIA SINICA, B29(5), 459(1986)

5. Tunneling microscopy of 2H-MoS2: A compound semiconductor surface; M. Weimer, J. Kramar, Chunli Bai, and J. D. Baldeschwieler, Phys. Rev. B, Rapid Commun.37(8), 4292(1988)

6. A scanning tunneling microscope for operation in air; J. Yao, G. Shang, Y. Jiao, Y. Yi, C. Bai, J. He, J. Zhong, and D. Rong, J. Microscopy, 152(3), 671(1988)

7. Computer-controlled scanning tunneling microscope; C. Bai, Chinese Science Bulletin, 34(15), 1318(1989)

22

8. Scanning tunneling microscopy of silver containing salt of bis(ethylenedithio) tetrathiafulvalene; Chunli Bai, C. Dai, C. Zhu, Z. Chen, G. Huang, X. Wu, D. Zhu, and J. Baldeschwieler, J. Vac. Sci. Technol., A8(1), 484(1990)

9. STM investigation of a spontaneous monolayer dispersion system: HgCl2 on highly oriented pyrolitic graphite surface; Y. Xie, Q. Xu, Y. Tang, Chunli Bai, C. Dai, J. Vac. Sci. Technol., A8(1),610(1990)

10. Scanning tunneling microscopy of the phosphatidylcholine bilayers; C. Luo, C. Zhu, L. Ruan, G. Huang, C. Dai, Z. Cheng, and C. Bai., J. Vac. Sci. Technol., A8(1), 684(1990)

11. Observation of individual organic molecules at nitronyl nitroxide single crystal surface by using atomic force microscopy; L. Ruan, C. Bai, H. Wang, Z. Hu, and M. Wan, J. Vac. Sci. Technol., B9(2), 1134(1991)

12. Scanning tunneling microscopy of galena and molybdenite; L. Liao, N. Shi, Z. Ma, and C. Bai, Chinese Science Bulletin, 36(23), 1989(1991) 13. The development and applications of atomic force microscope(AFM); C. Bai, Bull. Chin. Acad. Sci., 5, 287(1991)

14. Variant structures of DNA observed by scanning tunneling microscope; C. Bai, J. Yie, L. Gong, C. Dai, D. Wang, F. Gao, And J. Gu, Chin. Sci. Bull., 36(4),345(1991)

15. Langmuir-Blodgett film formation of rare-earth metal di-, triphthalocyanine complexes and observation of their thin film by means of TEM and STM; Y. Liu, D. Zhu, L. Ruan, C. Bai, A. Yamada, and K. Shigehara, Chinese Journal of Chemistry, 9(2), 126(1991)

16. A new electrochemical scanning tunneling microscope; Z. Tian, X. Zhuo, J. Ye, Z. Fen, B. Mao, C. Bai, and C. Dai, Ultramicroscopy, 42-44, 460(1992)

17. Direct observation of C60 LB film with scanning tunneling microscopy; J. Guo, Y. Xu, Y. Li, C. Yang, Y. Yao, D. Zhu and C. Bai, Chemical Physics Letters, 195(5,6), 625(1992)

18. Scanning tunneling microscopy images of polyaniline; M. Wan, J.Yang, C. Zhu, and C. Bai, Thin Solid Films, 208,153(1992)

23 19. STM barrier-height images and topographic images of denatured DNA; C. Bai, D. Wang, J. Gu, C. Dai, J. Yie, L. Gong and C. Liu, Nanobiology, 2,55-63(1993)

20. The primary study of NPP crystal by AFM; Dawen WANG, Cheng YE, Jianliang ZHAO, Chunli BAI, Chinese Science Bulletin, 38(12), (1993)

21. Atomic force microscope employing laser beam deflection for force detection; Junhan Wu, Yingjun Cheng, Changchun Dai, Guizhen Huang, Youchang Xie, Lisan Gong, Chunli Bai, Chinese Science Bulletin, 38(19),1623(1993)

22. Imaging of mica and graphite surfaces with the laser-AFM; Junhan Wu, Yingjun Cheng, Changchun Dai, Guizhen Huang, Youchang Xie, Lisan Gong, Chunli Bai, Chinese Science Bulletin, 38(19),1621(1993)

23. Geometric and electronic structures of Na/GaAs; Chunli Bai, Tomihiro Hashizume, Dongryul Jeon, Toshio Sakurai, J. Vac. Scl. Technol.,A11(3),525(1993)

24. Mechanism for the nanometer scale modification on HOPG surface by scanning tunneling microscope; Z.-H. Wang, C.-C. Dai, P.-C. Zhang, G.-Z. Huang, R.-L. Li, Y. Guo, and C. Bai, Chinese Phys. Lett., 10(9),535-38(1993)

25. Two-dimensinal structural modulation in Bi-O surface layer of cleaved Bi2Sr2CaCu2O8+single crystal revealed by STM at superconductin state; Hongjie Tao, Bo Yin, Qiansheng Yang, Zhongxian Zhao, Fan Gao, Changchun Dai, and Chunli Bai, Model Physics Letters, 7(20),1313(1993)

26. Scanning tunneling microscope studies of Langmuir-Blodgett films of fullerenes; J. Guo, Y. Xu, Y. Li, Y. Yao, D. Zhu and C. Bai, Condensed Matter and Materials Communications, 1(2),89(1993)

27. Evidence for the formation of a new variant structure of -DNA in vitro; Enhua Cao, Chunli Bai, Yujian He, Ye Fang, and Pingcheng Zhang; Chinese Science Bulletin, 39(3), 208(1994)

28. Scanning tunneling microscope observation of the cleavage fracture surfaces of titanium aluminide; Yue Zhang, W. Y. Chu, Y. B. Wang, L. J. Qiao, and C. M. Xiao, Z. H. Wang and C. L. Bai, J. Vac. Sci. Technol. B 12(3),1722(1994)

24 29. Newly developed low-temperature scanning tunneling microscope and its application to the study of superconducting materials; Fan Gao, Changchun Dai, Zengbo Chen, Guizhen Huang, and Chunli Bai, Hongjie Tao, Bo Yin, Qiansheng Yang, and Zhongxian Zhao, J. Vac. Sci. Technol. B12(3), 1708(1994)

30. Topographical structure of pBR322 DNA studied by scanning tunneling microscope and atomic force microscope; P.-C. Zhang, C. Bai, Y.-J. Cheng, Y. Fang, and Z.-H. Wang, X.-T. Huang, J. Vac. Sci. Technol. B12(3),1461(1994)

31. Molecular mechanics calculation and scanning tunneling microscopic research of polyaniline doped with perchlorate; C. Bai, C. F. Zhu, P. C. Zhang, and T. Yu, F. S. Wang, J. Vac. Sci. Technol. B12(3),1927(1994)

32. Scanning tunneling microscopy study of ZnS particles generated from a controlled chemical reaction; Dawen Wang, Yanqiu Liu, Guangzhi Xu, and Chunli Bai, J. Vac. Sci. Technol. B12(3),1898(1994)

33. The investigations of different NPP crystal surface structures by AFM; Da-Wen Wang, Cheng Ye, Jian-Liang Zhao and Chun-Li Bai, International Journal of Nonlinear Optical Physics 3(1),45(1994)

34. Microstructures of nanosize hydrogenated crystalline silicon studied by scanning tunneling microscopy; C. L. Bai, Z. H. Wang, C. C. Dai, and P. C. Zhang, Y. L. He, J. Vac. Sci. Technol. B12(3), 1823(1994)

35. Interaction of atomic hydrogen with the Si(100)2×1 surface; H. Lu, X. D. Wang, C. L. Bai, T. Hashizume, T. Sakurai, Appl. Phys., A 58, 203(1994)

36. Topography of brittle fracture surfaces of tutanium aluminide alloy as revealed by a scanning tunneling microscope; Z. Wang, C. Bai, G. Huang, and P. Zhang, J. Vac. Sci. Technol., B12(4), 2456(1994)

37. Interaction of ethidium bromide with a triplex DNA dA10·2dT10, Fang Ye, Bai Chun-Li, Zhang Ping-Cheng, Cao En-Hua, He Yu-Jian and Tang You-Qi, Science in China, 37(11),1306(1994)

38. Force microscopy studies of langmuir-blodgett film of 2-(4-Hexadecyloxy) phenyl)-4,4,5,5-tetramethyl-4,5-dihydro-1H-imidazolyl-1-oxy-3-oxide;Chunli Bai ,Ping cheng

25 Zhang, Daoben Zhu, Mingyong Han, Yu Xu, Deqing Zhang, and Yunqi Liu, J.Phys.Chem., 99(20), 8202(1995)

39. Scanning tunneling microscopy investigations of colloidal silver: surface structure and aggregation behavior induced by chlorion; Ye Fang, Chunli Bai, Ying Wei, and Youqi Tang, Jpn. J. Appl. Phys., 34(1), 4171 (1995)

40. Scanning tunneling microscopy of laser-deposited YBa2Cu3O7 thin films on Y-stabilized zirconia substrate; J. Z. Liu, L. Li, Y. J. Tian, S. F. Xu, H. B. Lu, Y. L. Zhou, Z. H. Chen, D. F. Cui,H. J. Tao, Z. X. Zhao, G. Z. Yang, F. Gao, and C. Bai, Journal of Superconductivity, 8(1), 103 (1995)

41. Microstructure and superconductivity of ultrathin YBa2Cu3O7-Films; Zheng Lizhen, Sun Jijun, Zhao Bairu, Xu Bo, Li Jinwei, Yin Bo, Wu Fei, Jia Shunlian, Ll Lin, Zhao Zhongxian, Zhu Chuanfeng, Bai Chunli, Chin.Phys.Lett, 12(10),625(1995)

42. A novel self-assembled NLO structurally controlled polymer film; Liu Dongsheng, Dai Daorong, Ye Cheng, Bai Chunli, Feng Zhiming, Zhang Pingcheng, Wu Dayong, Xie Ping, Li Ze & Zhang Rongben, Solid State Communications,94(3),169(1995)

43. STM Image of polyaniline with large size counter-ions; Meixiang Wan, Chuanfeng Zhu, Jiang Yang and Chunli Bai, Synthetic Metals, 69,157(1995)

44. Atomic force microscopy study of fine structures of the entire surface of red blood cells; P. C. Zhang, C. L. Bai, Y. M. Huang, H. Zhao, Y. Fang, N. X. Wang, Q. Li, Scanning Microscopy, 9(4), 981(1995)

45. Characterization of triplex RNA poly[rU].poly[rA].poly[rU] adsorbed on silver colloids by Fourier transform surface enhanced Raman scattering and scanning tunneling microscopy; Ye Fang, Chunli Bai, Ting Wang, You-Qi Tang, Appl. Surf. Sci., 89,331(1995)

46. In-situ fourier transform surface enhanced raman scattering from a double-helical DNA at silver and gold electrodes; Fang Ye, Zhong Faping, Wang Ting, Bai Chumli, Tang Youqi, Acta Physico-Chimica Sinica, 11(9), 854(1995)

47. In-situ Fourier Transform Raman Scattering From a Triple Helix DNA; Fang Ye, Wang Ting, Zhong Faping, C. L. Bai , Y. Q. Tang, Chinese Science Bulletin, 40(24), 2039(1995)

26 48. Direct visualization of the formation of a new structure of lambda DNA in vitro; Fang Ye, Bai Chunli, Wei Ying, Zhang Pingcheng, Tang Youqi, Cao Enhua,and He Yujian, Science in China(Series B)38(10),1166(1995)

49. CD spectra on triple stranded structure of λ—DNA; Yujian He, Enhua Cao, Bo Zhou, Chunli Bai, Ye Fang, Pingcheng Zhang, Chin. Sci.Bull., 40(6),477(1995)

50. A Molecular Model of Braid-like DNA Structure; C. Q. Liu, C. L. Bai, Y. Wang, J. F. Huanc, S. S. Wang, X. Q. Zhu, E. H. Cao and J. S. Zhao, J.theor.Biol.177(1995), 411-416

51. Determination of the conformations of intramolecular DNA triple helices by FT-IR spectroscopy: effect of loop length; Ye Fang, Chunli Bai, Ying Wei, Youqi Tang , Shwu-Bin Lin , Lou-Sing Kan, Journal of Molecular Structure 372(1995), 241-247

52. 163. Effect of Selective Cytosine Methylation and Hydration on the Conformations of DNA Triple Helices Containing a TTTT Loop Structure by FT-IR Spectroscopy; Ye Fang, Chunli Bai, Ying Wei, S.B.Lin, Lousing Kan, Journal of Biomolecular Structure & Dynamics,Volume 12, Issue Number 3 (1995),471-482

53. Evidence for the conformational rigidity of triplex d(C+T)8-d(AG)8·d(CT)8 on silver electrode revealed by Fourier transform Raman scattering studies; Ye Fang, Chunli Bai, Ting Wang, Faping Zhong, Youqi Tang, S. B. Lin, Lou-Sing Kan, Journal of Molecular Structure 377(1996),1-11

54. Surface-Enhanced Fourier Transform Raman Scattering Study on the Adsorpiton Structure of an RNA Triple Helix at a Silver Electrode; Ye Fang, Chunli Bai, Ting Wang, Youqi Tang, Applied Spectroscopy 50(1) 1996, 48-52

55. Atomic force microscopic study on topological structures of pBR332 DNA; Pingcheng Zhang , Chunli Bai, Yingjun Cheng, Ye Fang, Zhonghuai Wang, Xitai Huang, Science in China (Series C) 39(1) 1996, 1-7

56. Morphological observations of single-chain glassy polystyrene by means of tapping mode atomic force microscopy; Renyuan Qian, Jingshu Shen, Nianjiong Bei, Chunli Bai, Chuanfeng Zhu, Xinwen Wang, Macromol. Chem. Phys. 197,1996, 2165-2174

27 57. Direct observation of uncoated spectrin with atomic force microscope; Zhang Pingcheng, Bai Chunli, Cheng Yingjun, Fang Ye, Feng Liming and Pan Huazhen, Science in China (Series B), 39(4), 1996, 378-385

58. Characterization of self-assembled monolayers of thiols on Au(111); Deng Wenli, Yang Daben, Fang Ye, and Bai Chunli, Science in china (Series B) 39(3),1996, 225-234

59. Surface-Enhanced Fourier Transform Raman Scattering from a DNA Triple Helix Poly[dA]·2Poly[dT] at a Silver Electrode:Beyond the Short-Range Mechanism; Ye Fang, Ying Wei, and Chunli Bai, Lou-sing Kan, J. Phys. Chem, 100(43), 1996, P17410-17413

60. Atomic force microscopy study of the growth mechanism of ultrathin YB2Cu3O7 (YBCO) films; C. L. Bai, C. F. Zhu, X. W. Wang, P. C. Zhang, Q. Li, C. Wang, B. R. Zhao, L. Z. Zheng, L. Li, Thin Solid Films 289 (1996) P70-73

61. Evidence of diffusion characteristics of field emission electrons in nanostructuring process on graphite surface; Chen Wang, Chunli Bai, Xiaodong Li, Guangyi Shang, lmshik Lee, Xinwen Wang, Xiaohui Qiu, and Fang Tian, Appl. Phys. Lett. 69(3), 1996, P348-350

62. Roles of Low Energy Electrons in the Fabrication Process Using Scanning Tunnelling Microscope; Chen Wang, Chunli Bai, Xiao-dong Li, Guangyi Shang, Xaiohui Qiu, Chin. Phys. Lett. 13(10),(1996)P750-75

63. Conformational studies of arabinoglucuronomannology(AGM); Imshik Lee, Bai Chunli, Wang Chen, Acta Biophysica Sinica, 12(4),1996, P547-553

64. Biphasic transitions of a hairpin hexanucleotide triplex DNA; Imshik Lee, Wenli Deng, Linjing Yang, Chen Wang, Chunli Bai, Biophysical Chemistry 67,1997, P159-165

65. Hydrated water molecules of Pyrimidine/Purine/Pyrimidine DNA triple helices as revealed by FT-IR Spectroscopy: A Role of cytosine methylation; Ye Fang, Ying Wei, Chunli Bai, Youqi Tang, Shwu-Bin Lin, and Lou-sing Kan, Journal of Biomolecular Structure ) Dynamics, 14(4),1997, P485-493

66. Effect of loop on the stability of intramolecular triplex DNA; Linjing Yang, Chunli Bai, Imshik Lee, Xinwen Wang, Chen Wang, Science in China(Series B)40(6)1997, P650-656

28 67. Computational analysis of triplex formation of oligonucleotides: protonated and 5-methylated py-pu-py motif; Lee Imshik, Bai Chunli, Wang Chen and Wang Xinwen, Science in China B, 40(2)1997, P113-121

68. Comparative studies on parallel and antiparallel duplex and triplex DNA; C. Q. Liu, X. F. Shi, C. L. Bai, Jinshi Zhao, and Y. Wang, J. Theor. Biol, 184, 1997, P319-325

69. Polarity modified triplex DNA by bromide ; Lee Imshik, Li Qing, Yang Linjing, Wang Xinwen, Deng Wenli, Wang Chen and Bai Chunli, Chinese Science Bulletin 42(18) 1997, P1581-1584

70. Possible multistranded DNA induced by acid denaturation-renaturation; Jian Wei Li, Fang Tian, Chen Wang, and Chun Li Bai, J.Vac Sci. Technol. B 15(5), Sep/Oct 1997, P1637-1640

71. Magnetic force microscope images of magnetic domains in magnetic garnet; F. Tian, C. Wang, G.Y.Shang, N. X. Wang and C. L. Bai, J. Vac. Sci. Technol., B15(4) 1997, P1343-1346

72. Direct observation of water layers on mica surface in water by atomic force microscope; Ming Su, Chumli Bai, Maozi Liu, Chen Wang, Chemistry Letters, 1997, P933-934

73. Modelling of non-uniform electrical potential barriers for metal surfaces with chemisorbed oxygen; Chang Q Sun and Chunli Bai, J. Phys. Condens. Matter 9, 1997, P5823-5836

74. Observing interactions between the IgG antigen and anti-IgG antibody with AFM; P. C. Zhang, C. Bai, P. K. H. Ho, Y. Dai, and Y. S. Wu, IEEE Engineering in Medicine and Biology, 16(2), 1997, P42-46

75. Piezoelectric push-pull micropositioner for ballistic electron emission microscope; Guangyi Shang, Xiaohui Qiu, Chen Wang, and Chunli Bai, Rev. Sci. Instrum. 68(10),1997, P3803-3805

76. Threshold behavior of nanometer scale fabrication process using scanning tunneling microscopy; Chen Wang, Xiaodong Li, Guangyi Shang, Xiaohui Qiu, and Chunli Bai, J. Appl. Phys. 81(3), 1997, P1227-1230

29 77. Influence of low energy ballistic electron on the transmittance properties of Au/Si interface studied by ballistic-electron-emission microscope; Qiu Xiaohui, Shang Guangyi, Wang Chen, Wang Naixin and Bai Chunli, Chinese Science Bulletin 42(15)1997, P1282-1286

78. A Novel method of Real-time size control nanoaggregates by AFM; Ming Su, Chunli Bai, Fagn Tian, Jin Ma, Maozi Liu and Chen Wang, Chemistry Letters 1997, P1205-1206

79. Loop and water effect on stability of intertriplex DNA; Linjing Yang, Imshik Lee, Chen Wang, Qing Li, Chunli Bai, Journal of Molecular Structure 422(1998),P275-280

80. Surface morphology studies of in situ polycondensation microcomposites using atomic force microscopy; F. Tian, C. Wang, Z. Lin, J. W. Li, C. L. Bai, Appl. Phys. A 66, (1998) P591-596

81. Use of ballistic electron emission microscopy to observe the diversity of fabricated nanometer features at the Au/Si interface; X. Qiu, G. Shang, C. Wang, C. Bai, Appl. Phys. A 66(1998) P91-94

82. Analysis of lateral force contribution to the topography in contact mode AFM; G. Shang, X. Qiu, C. Wang, C. Bai, Appl. Phys. A 66(1998) P333-335

83. Molecular structures of recognition system host+guest and DNA complex; Linjing Yang, Xizeng Feng, Imshik Lee, Chunli Bai, Journal of Molecular Structure 444(1998)P13-20

84. The observation of the local ordering characteristics of spermidine-condensed DNA:atomic force microscopy and polarizing microscopy studies; Zhang Lin, Chen Wang, Xizeng Feng, Maozi Liu, Jianwei Li and Chunli Bai, Nucleic Acids Research, 26(13)1998,P3228-3234

85. Effect of Selective Substitution of 5-Bromocytosine on Conformation of DNA Triple Helices; Maozi Liu, Linjing Yang, Wenli Deng, Ming Su, Chen Wang, Shuu-Bin Lin, Lou-sing Kan and Chunli Bai, Journal of Biomolecular Structure and Dynamics, 15(5)1998, P895-903

86. Core-shell structure of pvp-protected Pt nanoparticles studied by scanning tunneling microscope; Ming Su, Chunli Bai and Chen Wang, Solid State Communications, 106(9)1998, P643-645

87. Influence of loop sequence on relative stability of bimolecular triplex DNA; Yang Linjing, Lee Imshik, Wang Chen, Liu Maozi, Su Ming, and Bai Chunli, Science in China (Series C)41(4)1998,P381-386

30

88. Substrate-dependent dispersion behavior of polymer-protected Pt colloid studied by SPM; Ming Su, Chunli Bai, Chen Wang, Jingjiao Guan, Applied Surface Science 133,1998, P23-26

89. Dynamic evolution of adhesion force between protein films studied by atomic force microscope; Su Ming, Wang Chen, and Bai Chunli, Chinese Science Bulletin 43(22) 1998, P1882-1885

90. convenient method of alingning large DNA molecules on bare mica surfaces for atomic force microscopy; Jianwei Li, Chunli Bai, Chen Wang, Chuanfeng Zhu, Zhang Lin, Qing Li and Enha Cao, Nucleic Acids Research, 26(20) 1998, P4785-4786

91. Influence of 5-bromodeoxycytosine substitution on triplex DNA stability and conformation; Linjing Yang, Maozi Liu, Wenli Deng, Chen Wang, Chunli Bai, Lou-Sing Kan, Biophysical Chemistry 76, 1999, P25-34

92. Single molecule physics and chemistry; Chunli Bai, Chen Wang, X. Sunney Xie, and Peter G. Wolynes, Proc. Natl. Acad. Sci. 96, 1999, P11075-11076

93. Investigation of various structures of DNA molecules (III); Feng Xizeng, Lin Zhang, Wang Chen and Bai Chunli, Science in China (Series C), 42(2)1999, P136-140

94. Theoretical studies on conformation comparison of braid-like and triplex DNA; Linjing Yang! Chunli Bai!Ciquan Liu!Xiufan Shi!Imshik Lee, Journal of Molecular Structure 477, 1999, P7-13

95. Friction Coefficients Derived from Apparent Height Variations in Contact Mode Atomic Force Microscopy Images(Junwei Li, Chen Wang, Guangyi Shang, Qingmin Xu, Zhang Lin, Jingjiao Guan,and Chunli Bai, Langmuir, 15, 1999, P7662-7669

96. Humidity and temperature effect on frictional properties of mica and alkylsilane monolayer self-assembled on mica; Fang Tian, Xudong Xiao, M. M. T. Loy, Chen Wang and Chunli Bai, Langmuir 15(1) 1999, P244-249

97. AFM as a surface probe-beyond structural information; Chunli Bai, Junwei Li, Zhang Lin, Jing Tang and Chen Wang, Surf. Interface Anal 28(1), 1999, P44-48

31 98. Electron-induced gasification reactions in the fabrication process on graphite surface using scanning tunneling microscopy; Ji. Wu, Chen Wang, Xiaohui Qiu, Guangyi Shang, Naixin Wang, and Chunli Bai, Journal of Applied Physics 86(4), 1999 P2342-2345

99. STM studies of the characteristics of the surface fabrication process using chemical and electrical methods; Chen Wang!Guangyi Shang!Xiaohui Qiu!Chunli Bai, Appl. Phys. A 68, 1999, P181-185

100.Direct visualization of DNA decondensation on mica by atomic force microscopy; Xueguang Sun, En-hua Cao, Maozi Liu, and Chunli Bai, Chemistry Letters 1999, P981-982

101.Atomic force microscopy of photochemistry of 4,4’-Dimethylbenzophenone in the solid state; Qingdao Zeng, Chen Wang, and Chunli Bai, Chemistry Letters 1999, P1261-1262

102.Atomic force microscopy of the topochemical photopolymerization of diolefin crystals; Qingdao Zeng, Chen Wang, and Chunli Bai, J.Vac. Sci. Technol. B 17(6), 1999, P2447-2451

32