Publications NOT INCLUDING JAPANESE PAPERS (updated on October 25, 2023) The citation numbers are from Google Scholar.

(Judged papers)

1. Kinetic energy dependence of partial cross sections for the collisional ionization of H2O,H2S,O2,and Ar with He(23S) metastable atoms: K. Mitsuke, T. Takami, and K. Ohno, J. Chem. Phys., 91, 1618-1625 (1989). cited 123

2. State-resolved collision energy dependence of Penning ionization cross sections for N2 and CO2 by He*23S: K. Ohno, T. Takami, K. Mitsuke, and T. Ishida, J. Chem. Phys., 94, 2675-2687 (1991). cited 173

3. Penning ionization of (CH3)4C and (CH3)3CCl by collision with He*(23S) metastable atoms: T. Takami, K. Mitsuke, and K. Ohno, J. Chem. Phys., 95, 918-929 (1991). cite 87

4. Collision energy-resolved Penning ionization electron spectra of unsaturated hydrocarbons with He*23S metastable atoms: T. Takami and K. Ohno, J. Chem. Phys., 96, 6523-6530 (1992). cited 77

5. Structural correlation among different phases in the initial stage of epitaxial growth of Au on Si(111): T. Takami, D. Fukushi, T. Nakayama, M. Uda, and M. Aono, Jpn. J. Appl. Phys., 33, 3688-3695 (1994). cited 39

6. End-Group-Dominated Molecular Order in Self-Assembled Monolayers: H. Wolf, H. Ringsdorf, E. Delamarche, T. Takami, H. Kang, B. Michel, Ch. Gerber, M. Jaschke, H. -J. Butt, and E. Bamberg, J. Phys. Chem., 99, 7102-7107 (1995). cited 172

7. Recognition of Individual Tail Groups in Self-Assembled Monolayers: T. Takami, E. Delamarche, B. Michel, Ch. Gerber, H. Wolf, and H. Ringsdorf, Langmuir, 11, 3876-3881 (1995). cited 130

8. Penning ionization of HCHO, CH2CH2, and CH2CHCHO by collision with He*(23S) metastable atoms: K. Ohno, K. Okamura, H. Yamakado, S. Hoshino, T. Takami, and Y. Yamauchi, J. Phys. Chem., 99, 14247-14253 (1995). cited 74

9. Formation of Si(111)-6x6-Au structure without using vacuum evaporation technique observed by reflection high-energy electron diffraction: T. Takami and S. Ino, Jpn. J. Appl. Phys., 36, L815-L817 (1997). cited 4

10. Periodische Structur eines einzelnen Blattes eines tuchartigen Makromolekuels - Untersuchung des "atomaren Tuchs" mit Rastertunnelmikroscopie: T. Takami, H. Ozaki, M. Kasuga, T. Tsuchiya, Y. Mazaki, D. Fukushi, A. Ogawa, M. Uda, and M. Aono, Angew. Chem. (German) 24, 2909-2912 (1997) cited 56; Periodic Structure of a Single Sheet of a Clothlike Macromolecule (Atomic Cloth) Studied by Scanning Tunneling Microscopy: T. Takami, H. Ozaki, M. Kasuga, T. Tsuchiya, Y. Mazaki, D. Fukushi, A. Ogawa, M. Uda, and M. Aono, Angew. Chem. Int. Ed. Engl. 24, 2755-2757 (1997). cited 73

11. Organometallic micelle comprising gold multiply-twinned particle and self-assembled thiols: T. Takami and S. Ino, Surf. Rev. Lett., 4, 1381-1384 (1997). cited 4

12. Study of Au Multiply-Twinned Particle Micelles by XPS, UPS (He I) and Metastable Impact Electron Spectroscopy: T. Takami, M. Brause, D. Ochs, W. Maus-Friedrichs, V. Kempter, and S. Ino, Surf. Sci., 407, 140-151 (1998). cited 6

13. Multiply-Twinned Particle Micelle: T. Takami, K. -i. Sugiura, Y. Sakata, T. Takeuchi, and S. Ino, Appl. Surf. Sci., 130-132, 834-840 (1998). cited 3

14. STM observations of Ag adsorption on the Si(111)-root3xroot3-Ag surface at low temperatures: X. Tong, Y. Sugiura, T. Nagao, T. Takami, S. Takeda, S. Ino, and S. Hasegawa, Surf. Sci., 408, 146-159 (1998). cited 60

15. Two different domains in cubic boron nitride (111) surface observed by friction force microscopy: T. Takami, I. Kusunoki, K. Suzuki, K. P. Loh, M. Nishitani-Gamo, I. Sakaguchi, T. Taniguchi, and T. Ando, Appl. Phys. Lett., 73, 2733-2735 (1998). cited 5

16. Reflection high-energy electron diffraction and low energy electron diffraction studies of the homoepitaxially grown diamond (111) and (001) surfaces: M. Nishitani-Gamo, I. Sakaguchi, K. P. Loh, T. Takami, I. Kusunoki, and T. Ando, Diamond Relat. Mater., 8, 693-700 (1999). cited 8

17. RHEED and AFM studies of homoepitaxial diamond thin film on C(001) substrate produced by microwave plasma CVD: T. Takami, K. Suzuki, I. Kusunoki, I. Sakaguchi, M. Nishitani-Gamo, and T. Ando, Diamond Relat. Mater., 8, 701-704 (1999). cited 9

18. Surface morphology of homoepitaxially grown (111), (001), and (110) diamond studied by low energy electron diffraction and reflection high-energy electron diffraction: M. Nishitani-Gamo, Kian Ping Loh, I. Sakaguchi, T. Takami, I. Kusunoki, and T. Ando, J. Vac. Sci. Technol. A, 17, 2991-3002 (1999). cited 17

19. Reaction of a Si(100) surface with a hot C2H4 beam: I. Kusunoki, Y. Igari, S. Ishidzuka, T. Mine, T. Takami, and T. Takaoka, Surf. Sci., 433-435, 167-171 (1999). cited 7

20. Homoepitaxial (111) diamond grown by temperature-controlled chemical vapor deposition, Mikka Nishitani-Gamo, Kian Ping Loh, Isao Sakaguchi, Tomohide Takami, Isao Kusunoki, and Toshihiro Ando, J. Mater. Res., 14, 3518-3524 (1999). cited 6

21. Diamond thin film grown homoepitaxially on diamond (001) substrate by microwave plasma CVD method studied by reflection high-energy electron diffraction and atomic force microscopy: T. Takami, K. Suzuki, I. Kusunoki, I. Sakaguchi, M. Nishitani-Gamo, and T. Ando, Surf. Sci., 440, 103-115 (1999). cited 9

22. Nitridation of a diamond film using 300-700 eV N2+ ion beams: I. Kusunoki, M. Sakai, S. Ishidzuka, Y. Igari, T. Takaoka, T. Takami, M. Nishitani-Gamo, and T. Ando, Diamond Relat. Mater., 9, 698-702 (2000). cited 5

23. Homoepitaxial diamond (001) thin film studied by reflection high-energy electron diffraction, contact atomic force microscopy, and scanning tunneling microscopy, T. Takami, I. Kusunoki, M. Nishitani-Gamo, and T. Ando, J. Vac. Sci. Technol. B, 18, 1198-1202 (2000). cited 8

24. Reaction of Si(111) Surface with Acetone: T. Takami, S. Ishidzuka, Y. Igari, H. Range, and I.Kusunoki, Thin Solid Films, 376, 89-98 (2000). cited 18

25. RHEED and STM study of a homoepitaxial diamond (001) thin film produced by microwave plasma CVD: T. Takami, K. Suzuki, T. Mine, I. Kusunoki, M. Nishitani-Gamo, and T. Ando, New Diamond and Frontier Carbon Technology, 10, 329-337 (2000).

26. AFM study of a SiC film grown on Si(100) surface using a C2H4 beam: T. Takami, Y. Igari, I. Abe, S. Ishidzuka, and I. Kusunoki, Appl. Surf. Sci., 169-170, 300-304 (2001). cited 8

27. Unusual RHEED patterns of a homoepitaxial diamond (001) surface explained by surface tilt: T. Takami, T. Mine, I. Kusunoki, M. Nishitani-Gamo, and T. Ando, Diamond Relat. Mater., 10, 1655-1658 (2001).

28. AFM and XPS studies of a homoepitaxial diamond (100) surface nitrided using 500 eV N2+ ion beam: I. Kusunoki, Y. Igari, S. Ishidzuka, T. Takami, T. Takaoka, M. Nishitani-Gamo, and T. Ando, Diamond Relat. Mater.,10, 1676-1680 (2001).

29. XPS study of nitridation of diamond and graphite with a nitrogen ion beam: I. Kusunoki, M. Sakai, Y. Igari, S. Ishidzuka, T. Takami, T. Takaoka, M. Nshitani-Gamo, and T. Ando, Surf. Sci., 492, 315-328 (2001). cited 42

30. Silicon fiber formed on silicon surface without using gas process: T. Takami and I. Kusunoki, J. Appl. Phys., 91, 10224-10226 (2002).

31. Rotation sector mounted in front of the screen and outside the vacuum chamber for the observation of reflection high-energy electron diffraction: T. Takami, Rev. Sci. Instrum., 73, 2672-2674 (2002). cited 3

32. Visualization of Local Valence Structures in Quasi-One-Dimensional Halogen-Bridged Complexes [Ni1-xPdx(chxn)2Br]Br2 by STM: Shinya Takaishi, Hitoshi Miyasaka, Ken-ichi Sugiura, Masahiro Yamashita, Hiroyuki Matsuzaki, Hideo Kishida, Hiroshi Okamoto, Hisaaki Tanaka, Kazuhiro Marumoto, Hiroshi Ito, Shin-ichi Kuroda, and Tomohide Takami, Angew. Chem., 116, 3233-3237 (2004); Angew. Chem. Int. Ed., 43, 3171-3175 (2004). cited 41

33. Two-Dimentional Crystal Growth and Stacking of Bis(phthalocyaninato) Rare Earth Sandwich Complexes at the 1-Phenyloctane/Graphite Interface: Tomohide Takami, Dennis P. Arnold, Adrian V. Fuchs, Geoffrey D. Will, Roland Goh, Eric R. Waclawik, John M. Bell, Paul S. Weiss, Ken-ichi Sugiura, Wei Liu, and Jinzhuang Jiang, J. Phys. Chem. B, 110, 1661-1664 (2006). cited 44

34. Initial-Stage Structural Change of Si(100) Surface Induced by Exposure to Ethylene Gas and Annealing: Tomohide Takami, Hironobu Kusaka, and Isao Kusunoki, e-J. Surf. Sci. Nanotech. 4, 285-293 (2006). cited 2

35. Tuning Interactions between Ligands in Self-Assembled Double-Decker Phthalocyanine Array: Tao Ye, Tomohide Takami, Rongming Wang, Jianzhuang Jiang, and Paul S. Weiss, J. Am. Chem. Soc. (Communications), 128, 10984-10985 (2006). cited 85

36. Controlled Adsorption Orientation for Double-Decker Complexes: Tomohide Takami, Tao Ye, Dennis P. Arnold, Ken-ichi Sugiura, Rongming Wang, Jianzhuang Jiang, and Paul S. Weiss, J. Chem. Phys. C, 111, 2077-2080 (2007). cited 39

37. Two-Dimensional Arrays of DNA Oligomers with n-Octylamine Ligands: Tomohide Takami, Hiroyuki Tanaka, and Tomoji Kawai, Surf. Sci. Lett., 602, L39-L43 (2008). cited 4

38. Reversible Photo-Switching of Single Azobenzene Molecules in Controlled Nanoscale Environments: Ajeet S. Kumar, Tao Ye, Tomohide Takami, Byung-Chan Yu, Austen K. Flatt, James M. Tour, and Paul S. Weiss, Nano Lettrs, 8, 1644-1648 (2008). cited 338

39. Solvent Induced Variations in Surface Structure of a 2,9,16,23-tetra-tert-butyl-phthalocyanine on Graphite: T. Takami, U. Mazur, and K. W. Hipps, J. Chem. Phys. C, 113, 17479-17483 (2009); errata: 20051. cited 26

40. Commensurate ordering of iron phthalocyanine on Ag(111) surface: T. Takami, C. Carrizales, and K. W. Hipps, Surf. Sci., 603, 3201-3204 (2009). cited 30

41. Catalyst-Free Growth of Networked Nanographite on Si and SiO2 Substrates byPhotoemission-assisted Plasma-enhanced Chemical Vapor Deposition: Tomohide Takami, Shuichi Ogawa, Haruki Sumi, Toshiteru Kaga, Akihiko Saikubo, Eiji Ikenaga, Motonobu Sato, Mizuhisa Nihei and Yuji Takakuwa, e-J. Surf. Sci. Nanotech. 7, 882-890 (2009). cited 38

42. Changing Stations in Single Bistable Rotaxane Molecules under Electrochemical Control: Tao Ye, Ajeet S. Kumar, Sourav Saha, Tomohide Takami, Tony J. Huang, J. Fraser Stoddart and Paul S. Weiss, ACS Nano, 4, 3697-3701 (2010). cited 93

43. Building Self-Assembled Molecular Layers with Axially Substituted Titanium Phthalocyanines: Tomohide Takami, Aurora Clark, Richard Caldwell, Ursula Mazur, and K. W. Hipps, Langmuir, 26, 12709-12715 (2010). cited 11

44. Manipulating Double-Decker Molecules at the Liquid-Solid Interface: Tomohide Takami, Tao Ye, Bala Krishna Pathem, Dennis P. Arnold, Ken-ichi Sugiura, Yongzhong Bian, Jianzhuang Jiang, and Paul S. Weiss, J. Am. Chem. Soc., 132, 16460-16466 (2010). cited 44

45. Concentration dependence of ionic conductance measured with ion-selective sub-micro pipette probes in aqueous sodium and potassium chloride solutions: Jong Wan Son, Tomohide Takami, Joo-Kyung Lee, Bae Ho Park, and Tomoji Kawai, Appl. Phys. Lett., 99, 033701 (2011). cited 12

46. Separate Detection of Sodium and Potassium Ions with Sub-micropipette Probe: Tomohide Takami, Jong Wan Son, Joo-Kyung Lee, Bae Ho Park, and Tomoji Kawai, Jpn J. Appl. Phys. 50, 08LB13 (2011). cited 15

47. Selective Measurement of Calcium and Sodium Ion Conductance using Sub-micropipette Probes with Ion Filters: Xiao Long Deng, Tomohide Takami, Jong Wan Son, Tomoji Kawai, and Bae Ho Park, Appl. Phys. Express 5, 027001 (2012). cited 6

48. Direct Observation of Potassium Ions in HeLa Cell with Ion-Selective Nanopipette Probe: Tomohide Takami, Futoshi Iwata, Koji Yamazaki, Jong Wan Son, Joo-Kyung Lee, Bae Ho Park, and Tomiji Kawai, J. Appl. Phys., 111, 044702 (2012). cited 23

49. Ion Current Oscillation in Glass Nano-Pipettes: Xiao Long Deng, Tomohide Takami, Jong Wan Son, Tomoji Kawai, and bae Ho Park, J. Phys. Chem. C, 116, 14857-14862 (2012). cited 6

50. Development of Beetle-type Robot with Sub-micropipette Probe: Tomohide Takami, Xiao Long Deng, Jong Wan Son, Bae Ho Park, and Tomoji Kawai, Jpn J. Appl. Phys. 51, 08KB12 (2012). cited 6

51. Ion-Selective Detection by Plasticized Poly(vinyl chloride) Membrane in Glass Nanopipette with Alternating Voltage Modulation: Xiao Long Deng, Tomohide Takami, Jong Wan Son, Eun Ji Kang, Tomoji Kawai, and Bae Ho Park, Journal of Nanoscience and Nanotechnology, 13, 5413-5419 (2013). cited 4

52. Effect of concentration gradient on ionic current rectification in polyethyleneimine modified glass nano-pipettes: Xiao Long Deng, Tomohide Takami, Jong Wan Son, Eun Ji Kang, Tomoji Kawai, and Bae Ho Park, Scientific Reports, 4, 4005, (2014). cited 30

53. Manipulation of organic molecules in ambient condition studied by scanning tunneling microscopy (review paper): Tomohide Takami, e-J. Surf. Sci. Nanotech., 12, 157-164 (2014). cited 4

54. Nanopipette exploring nanoworld (review paper): Tomohide Takami, Bae Ho Park, and Tomoji Kawai, Nano Convergence, 1, 17 (2014). cited 25

55. Improved Ion-Selective Detection Method Using Nano-Pipette with Poly(vinyl chloride)-Based Membrane: Eun Ji Kang, Tomohide Takami, Xiao Long Deng, Jong Wan Son, Tomoji Kawai, and Bae Ho Park, J. Chem. Phys. B 118, 5130-5134 (2014). cited 9

56. Coating the outer surface of glass nanopipette with chlorobenzene-terminated polysiloxane: Tomohide Takami, Yoshihiro Ojiro, Yoshihide Ogawa, Shuichi Ogawa, Yuji Takakuwa, Mikako Saito, Hideaki Matsuoka, and Shin-ichi Tate, e-J. Surf. Sci. Nanotech., 13, 79-84 (2015). cited 2

57. Argon gas flow through glass nanopipette: Tomohide Takami, Kiwamu Nishimoto, Tadahiko Goto, Shuichi Ogawa, Futoshi Iwata, and Yuji Takakuwa, Jpn J. Appl. Phys., 55, 125202 (2016). cited 4

58. Automatic shutdown system of alternating current electrochemical etching for the preparation of a platinum/iridium tip for scanning tunneling microscopy and the investigation of the byproduct of platinum chloride particles, Tomohide Takami, Rikuto Kitamura, Takahiro Hiramoto, Shohei Oki, Kunta Yoshioka, and Yoshiki Aoyama, Jpn J. Appl. Phys., 58, SIIC05 (2019). cited 2

59. Synthesis of Chloroauric Acid from Gold Electrodes in Alkali Halide Salt Solution by AC Electrolysis and the Sequential Formation of Gold Nanoparticles by Turkevich Method, Kei Oya, Kei Aoshika, Masaki Ageishi, Hideyuki Magara, Shuichi Ogawa, Yuji Takakuwa, and Tomohide Takami, Chem. Lett., 50, 191-194 (2021).

60. Multilayer Deposition of Octakis(octyloxy) PhthalocyanineObserved by Scanning Tunneling Microscopy, Scanning Electron Microscopy, Transmission Electron Microscopy, and X-ray Diffraction, e-J. Surf. Sci. Nanotech., 20, 145-149 (2022).

61. Development of Dual Ion-selective Electrodes in Double- Barrel Glass Pipette at One Micrometer for Simultaneous Measurement of Sodium and Potassium Ions, e-J. Surf. Sci. Nanotech., 21, 17-23 (2023).

66. Argon Gas Flow through Micro- and Nano-Pipette e-J. Surf. Sci. Nanotech., 21, 257-261 (2023).

(Non-judged papers)

1. Continual Structural Evolution of the Si(111)6x6-Au Surface Studied by Scanning Tunneling Microscopy: T. Takami, D. Fukushi, T. Nakayama, Y. Kuwahara, M. Uda, and M. Aono, RIKEN Review, 7, 5-6 (1994).

2. High Quality Homoepitaxial Diamond (111) and (100) Grown by Microwave Plasma Assisted Chemical Vapor Deposition: M. Nishitani-Gamo, I. Sakaguchi, K. P. Loh, Y. Sato, T. Takami, K. Suzuki, I. Kusunoki, and T. Ando, 5th NIRIM International Symposium on Advanced Materials (ISAM '98), 79-84, Tsukuba, March (1998).

3. Growth Studies of beta-SiC and Graphite Films on Si(001) Surface by Reaction with C2H4: I. Kusunoki, Y. Igari, S. Ishidzuka, T. Mine, T. Takami, and T. Takaoka, 5th NIRIM International Symposium on Advanced Materials (ISAM '98) 121-124, Tsukuba, March (1998).

4. Aggregate Comprised of Au Multiple-Twinned Particle (MTP) and Alkanethiolates "MTP-micelle": T. Takami and S. Ino, Proc. International Symposium on Hybrid Analysis for Functional Nanostructure, Kyoto, 151-152 (1998).

5. Reflection high-energy electron diffraction and low energy electron diffraction studies of the homoepitaxially grown diamond (111) and (001) surfaces: Mikka Nishitani-Gamo, Isao Sakaguchi, Tomohide Takami, Isao Kusunoki, Changyong Xiao and Toshihiro Ando, 6th NIRIM International Symposium on Advanced Materials (ISAM '99), Tsukuba, 71-72 (1999).

6. Surface studies of chemical-vapor-deposited diamond thin films, cubic boron nitride, and graphite by reflection high-energy electron diffraction (RHEED), atomic force microscopy (AFM), and scanning tunneling microscopy (STM), T. Takami, K. Suzuki, T. Mine, I. Kusunoki, K. P. Loh, I. Sakaguchi, M. Nishitani-Gamo, T. Taniguchi, and T. Ando, Bull. RISM Tohoku Univ., 47, 1-16 (1999).

7. Report on the Studies of the Surfaces of Chemical-Vapor-Deposited (CVD) Thin Diamond Films Conducted by Reflection High-Energy Electron Diffraction (RHEED), Atomic Force Microscopy (AFM), and Scanning Tunneling Microscopy (STM), T. Takami, Bull. RISM Tohoku Univ., 48, 19-32 (2000).

8. Development of a Back Scattering Reflection High Energy Electron Diffraction (BSRHEED) instrument, T. Takami, Bull. RISM Tohoku Univ.,48, 33-38 (2000).

9. Frequency dependence of alternate current electrochemical etching of platinum / iridium wire, Y. Aoyama and T. Takami, Res. Rep. Kogakuin Univ.,123, 53-58 (2017).

10. Cesium ion-selective membrane fabricated in a glass nanopipette, H. Nishiyama and T. Takami, Res. Rep. Kogakuin Univ.,123, 59-64 (2017).

(Books)

1. Characterization and Fabrication of Hydrogen-Terminated Diamond Surface Produced by Microwave Plasma CVD Method: T. Takami, I. Kusunoki, M. Nishitani-Gamo, and T. Ando,Precision Science and Technology for Perfect Surfaces, Y. Furukawa, Y. Mori, and T. Kataoka, Eds., JSPE Publication Series No.3 (The Japan Society for Precision Engineering, 1999) 739-744.

2. Nano-pipette probe with separative ion detection: Tomohide TAKAMI, Jong Wan SON, Joo-Kyung LEE, Bae Ho PARK, and Tomoji KAWAI, inPhysics, Chemistry and Applications of Nanostructures, V. E. Borisenko, S. V. Gaponenko, V. S. Gurin, C. H. Kam, Eds., (World Scientific, Singapore, 2011), pp. 535-538.

3. Ion-selective detection with glass nanopipette for living cells: Tomohide TAKAMI, Jong Wan SON, Eun Ji KANG, Xiao Long DENG, Tomoji KAWAI, Seung Woong LEE, and Bae Ho PARK, inPhysics, Chemistry and Applications of Nanostructures, V. E. Borisenko, S. V. Gaponenko, V. S. Gurin, C. H. Kam, Eds., (World Scientific, Singapore, 2013) pp.305-308.