Professor,
Department of Materials Science and Engineering

 

Zhejiang University, Yuquan Campus
38 Zheda Road
Hangzhou, China 310027

 

Education

Ph.D. – The Institute of Solid State Physics, Chinese Academic Science, China 2003
B.S. – Xiangtan University, China , 1998

Working Experience

2010-, professor, the Department of Materials Science and Engineering, Zhejiang University
2008-2010, Permanent Researcher, National Institute for Materials Science, Japan
2006-2008, Researcher fellow, International center for Young Scientist，National Institute for Materials Science, Japan
2005 - 2006, Postdoctor, National Institute for Materials Science, Japan
2003- 2005, Postdoctor, Lakehead University, Canada

 

Awards and Honors

New Century Excellent Talents in University

 

Research Interests

Low dimensional Materials
Nanostructured functional thin films
Novel nanocomposite separation membranes
 

Current Projects

1. Mesoporous separation membranes based on ultrathin nanofibers
2. Nanospace Mass transportation and application for Separation
3. Preparation and Properties of High performance nanocomposite Membranes

Publication List

Recent Publications
(1) H. W. Huang, Q. Yu, X. S. Peng*, Z. Z. Ye, “Mesoporous protein thin films for molecule delivery”, J. Mater. Chem. 2011, in press .
(2) X. S. Peng*, I. Ichinose, “Green Chemical synthesis of ultrathin β-MnOOH nanofibers for separation membranes”, Adv. Funct. Mater. DOI: 10.1002/adfm.201002628, 2011, in press.
(3) X. S. Peng*, Q.Yu，Z. Z. Ye，I.Ichinose，“Flexible Ultrathin Free-standing Fluorescent Films of CdSexS1-x/ZnS Nanocrystalline and Protein” Journal of Materials Chemistry, 2011, 21, 4424.
(4) X. S. Peng*, I. Ichinose，“Manganese Oxyhydroxide and Oxide Nanofibers for High Efficient Degradation of Organic Pollutants” Nanotechnology，22 (2011) 015701.
(5) Q. G Zhang, S. Ghosh, S. Samitsu, X. S. Peng and I. Ichinose*, “Ultrathin freestanding nanoporous membranes prepared from polystyrene nanoparticles”, J. Materials Chemistry 2011, DOI 10.1039/c0jm03334k.
(6) X. S. Peng, J. Jin, Y. Nakamura, T. Ohno, I. Ichinose*,“Ultrafast permeation of water through protein channel membranes”, Nature Nanotechnology, 2009, 4, 353-357.
(7) X. S. Peng, S. Karan, I. Ichinose, “Ultrathin Nanofibrous Films Prepared from Cadmium Hydroxide Nanostrands and Anionic Surfactants” Langmuir 2009, 25, (15) 8514-8518.
Selected Publications
(1) X. S. Peng*, I. Ichinose，“Manganese Oxyhydroxide and Oxide Nanofibers for High Efficient Degradation of Organic Pollutants” Nanotechnology，22 (2011) 015701.
(2) H. W. Huang, Q. Yu, X. S. Peng*, Z. Z. Ye, “Mesoporous protein thin films for molecule delivery”, J. Mater. Chem. 2011, in press.
(3) X. S. Peng*, I. Ichinose, “Green Chemical synthesis of ultrathin β-MnOOH nanofibers for separation membranes”, Adv. Funct. Mater. DOI: 10.1002/adfm.201002628, 2011, in press.
(4) X. S. Peng*, Q.Yu，Z. Z. Ye，I.Ichinose，“Flexible Ultrathin Free-standing Fluorescent Films of CdSexS1-x/ZnS Nanocrystalline and Protein” Journal of Materials Chemistry, 2011, 21, 4424.
(5) X. S. Peng, J. Jin, Y. Nakamura, T. Ohno, I. Ichinose,“Ultrafast permeation of water through protein channel membranes”, Nature Nanotechnology, 2009, 4, 353-357.
(6) X. S. Peng, S. Karan, I. Ichinose, “Ultrathin Nanofibrous Films Prepared from Cadmium Hydroxide Nanostrands and Anionic Surfactants” Langmuir 2009, 25, (15) 8514-8518.
(7) X. S. Peng, K. Koczkur, A. C. Chen, “Synthesis of well-aligned bamboo-like carbon nanotube arrays from ethanol and acetone” J. Phys. D: Appl. Phys. 2008, 41(9), 95409.
(8) X. S. Peng, A. C. Chen, “Growth and characterization of free-standing single-crystalline tin and tin oxide nanobelts”, Mater. Lett. 2008, 62 (12-13), 1969-1972.
(9) J. Jian, Y. Wakayama, X. S. Peng, I. Ichinose, “Surfactant-assisted fabrication of inorganic sheets covering an arrays of micrometric holes”, Nature Materials 2007, 6 (9), 686-691.
(10) X. S. Peng, J. Jin, I. Ichinose, “A general method for ultrathin free-standing films of nanofibrous composite materials”. J. Am. Chem. Soc. 2007, 129 (27), 8625-8633.
(11) X. S. Peng, J. Jin, I. Ichinose, “Mesoporous separation membranes of polymer-coated copper hydroxide nanostrands”, Adv. Funct. Mater. 2007, 17 (11), 1849-1855.
(12) X. S. Peng, K. Koczkur, A. C. Chen, “Synthesis and characterization of ruthenium-decorated nanoporous platinum materials”, Nanotechnology, 2007, 18 (30), 305605.
(13) X. S. Peng, A. C. Chen, “Synthesis and characterization of large-scale TiO2-based nanostructures on titanium substrate”, Adv. Funct. Mater. 2006, 16 (10), 1355-1362.
(14) X. S. Peng, J. Jin, N. Kobayashi, W. Schmitt, I. Ichinose, “Temporal growth of crystalline zinc hydroxide nanostrands and their atomic structures” Chem. Comm. 2008 , (16)1904-1906.
(15) X. S. Peng, Y. H. Luo, J. Jin, J. G. Huang, I. Ichinose, “Free-standing fibrous platinum nanosheets and their conductivity”. Chem. Commun. 2006, (45), 4688-4690.
(16) X. S. Peng, J. Wang, D.F. Thomas and A. C. Chen, “Tunable growth of TiO2 nanostructures on Ti substrates”, Nanotechnology, 2005, 16 (10), 2389 – 2395.
(17) X. S. Peng and A. C. Chen, “Dense and high-hydrophobic TiO2 nanorod arrays”, Appl. Phys. A 2005, 80 (3), 473 – 476.
(18) A. C. Chen, X. S. Peng, K. Koczkur, B. Miller, “Super-hydrophobic tin oxide nanoflowers”, Chem. Commun., 2004, (17), 1964-1965.
(19) X. S. Peng, K. Koczkur, S. Nigro, A. C. Chen, “Fabrication and electrochemical properties of novel nanoporous platinum network electrode, Chem. Commun., 2004, (24), 2872-2873.
(20) X. S. Peng, A. C. Chen, “Aligned TiO2 nanorod arrays synthesized by oxidizing titanium with acetone”, J. Mater. Chem. 2004, 14 (16), 2542-2548.
(21) X. S. Peng, A. C. Chen, “Electrochemical fabrication of novel nanostructures based on anodic alumina”, Nanotechnology 2004, 15 (7),743-748.
 

Full Publications
(1) H. W. Huang, Q. Yu, X. S. Peng*, Z. Z. Ye, “Mesoporous protein thin films for molecule delivery”, J. Mater. Chem. 2011, in press .
(2) X. S. Peng*, I. Ichinose, “Green Chemical synthesis of ultrathin β-MnOOH nanofibers for separation membranes”, Adv. Funct. Mater. DOI: 10.1002/adfm.201002628, 2011, in press.
(3) X. S. Peng*, Q.Yu，Z. Z. Ye，I.Ichinose，“Flexible Ultrathin Free-standing Fluorescent Films of CdSexS1-x/ZnS Nanocrystalline and Protein” Journal of Materials Chemistry, 2011, 21, 4424.
(4) X. S. Peng*, I. Ichinose，“Manganese Oxyhydroxide and Oxide Nanofibers for High Efficient Degradation of Organic Pollutants” Nanotechnology，22 (2011) 015701.
(5) Q. G Zhang, S. Ghosh, S. Samitsu, X. S. Peng and I. Ichinose*, “Ultrathin freestanding nanoporous membranes prepared from polystyrene nanoparticles”, J. Materials Chemistry 2011, DOI 10.1039/c0jm03334k.
(6) H. L. Qin, J. Jin, X. S Peng, I. Ichinose, “Mechanical properties of free-standing single layers of metallic nanocrystals” J. Mater. Chem., 2010, 20, 858.
(7) X. S. Peng, J. Jin, Y. Nakamura, T. Ohno, I. Ichinose,“Ultrafast permeation of water through protein channel membranes”, Nature Nanotechnology, 2009, 4, 353-357. (reported as Nature Nanotechnology News 2009, 4).
(8) J. Jian, Y. Wakayama, X. S. Peng, I. Ichinose, “Surfactant-assisted fabrication of inorganic sheets covering an arrays of micrometric holes”, Nature Materials 2007, 6 (9), 686-691.
(9) X. S. Peng, J. Jin, I. Ichinose, “A general method for ultrathin free-standing films of nanofibrous composite materials”. J. Am. Chem. Soc. 2007, 129 (27), 8625-8633.
(10) X. S. Peng, J. Jin, I. Ichinose, “Mesoporous separation membranes of polymer-coated copper hydroxide nanostrands”, Adv. Funct. Mater. 2007, 17 (11), 1849-1855.
(11) X. S. Peng, A. C. Chen, “Synthesis and characterization of large-scale TiO2-based nanostructures on titanium substrate”, Adv. Funct. Mater. 2006, 16 (10), 1355-1362. (One of the most accessed articles from 2/2006 to 3/2007, even though it was published on May 31, 2006.)
(12) X. S. Peng, J. Jin, N. Kobayashi, W. Schmitt, I. Ichinose, “Temporal growth of crystalline zinc hydroxide nanostrands and their atomic structures” Chem. Comm. 2008 , (16)1904-1906.
(13) X. S. Peng, Y. H. Luo, J. Jin, J. G. Huang, I. Ichinose, “Free-standing fibrous platinum nanosheets and their conductivity”. Chem. Commun. 2006, (45), 4688-4690.
(14) X. S. Peng, K. Koczkur, S. Nigro, A. C. Chen, “Fabrication and electrochemical properties of novel nanoporous platinum network electrode, Chem. Commun., 2004, (24), 2872-2873.
(15) X. S. Peng, G. W. Meng, X. F. Wang, Y, W. Wang, J. Zhang, X. Liu, L. D. Zhang, “Synthesis of oxygen deficient indium-tin oxide (ITO) nanofibers”, Chem. Mater., 2002, 14 (11), 4490-4493.
(16) X. S. Peng, G. W. Meng, J. Zhang, X. F. Wang, Y. W. Wang, C. Z. Wang, L. D. Zhang, “Synthesis and photoluminescence of single-crystalline In2O3 nanowires”, J. Mater. Chem. 2002, 12 (5), 1602-1605.
(17) X. S. Peng, A. C. Chen, “Aligned TiO2 nanorod arrays synthesized by oxidizing titanium with acetone”, J. Mater. Chem. 2004, 14 (16), 2542-2548.
(18) X. S. Peng, L. D. Zhang, G. W. Meng, X. F. Wang, Y. W. Wang, C. Z. Wang, G. S. Wu, “Photoluminescence and Infrared properties of a-Al2O3 nanowires and nanobelts”, J. Phys. Chem. B, 2002, 106 (43), 11163-11167.
(19) X. S. Peng, S. Karan, I. Ichinose, “Ultrathin Nanofibrous Films Prepared from Cadmium Hydroxide Nanostrands and Anionic Surfactants” Langmuir 2009, 25(15)，8514-8518
(20) X. S. Peng, K. Koczkur, A. C. Chen, “Synthesis and characterization of ruthenium-decorated nanoporous platinum materials”, Nanotechnology, 2007, 18 (30), 305605.
(21) X. S. Peng, J. Wang, D.F. Thomas and A. C. Chen, “Tunable growth of TiO2 nanostructures on Ti substrates”, Nanotechnology, 2005, 16 (10), 2389 – 2395.
(22) X. S. Peng, A. C. Chen, “Electrochemical fabrication of novel nanostructures based on anodic alumina”, Nanotechnology 2004, 15 (7),743-748.
(23) X. S. Peng, K. Koczkur, A. C. Chen, “Synthesis of well-aligned bamboo-like carbon nanotube arrays from ethanol and acetone” J. Phys. D: Appl. Phys. 2008, 41(9), 95409.
(24) X. S. Peng, A. C. Chen, “Growth and characterization of free-standing single-crystalline tin and tin oxide nanobelts”, Mater. Lett. 2008, 62 (12-13), 1969-1972.
(25) X. S. Peng and A. C. Chen, “Dense and high-hydrophobic TiO2 nanorod arrays”, Appl. Phys. A 2005, 80 (3), 473 – 476.
(26) X. S. Peng, L. D. Zhang, G. W. Meng, Y. lin, Y. T. Tian, “Synthesis of Zn nanofibers through simple thermal vapor- phase deposition”, J. Phys. D: Appl. Phys., 2003, 36 (6), L35-L38.
(27) X. S. Peng, L. D. Zhang, G. W. Meng, Y. T. Tian, Y. Lin, “Micro-Raman and Infrared properties of tin oxide nanobelts synthesized from tin metal and SiO2 powders”, J. Appl. Phys. 2003, 93 (3), 1760-1763.
(28) X. S. Peng, X. F. Wang, J. Zhang, Y. W. Wang, S. H. Sun, G. W. Meng, L. D. Zhang, “Blue light emitting from amorphous SiO2 nanoropes”, Appl. Phys. A 2002, 74 (6), 831-833.
(29) X. S. Peng, G. W. Meng, J. Zhang, X. F. Wang, C. Z. Wang, X. Liu, L. D. Zhang, “Strong quantum confinement in ordered PbSe nanowire arrays”, J. Mater. Res. 2002, 17 (6), 1283-1286.
(30) X. S. Peng, G. W. Meng, J. Zhang, X. F. Wang, L. X. Zhao, Y. W. Wang, L. D. Zhang, “Electrochemical fabrication of ordered Ag2S nanowire arrays”, Mater. Res. Bull. 2002, 37 (7), 1369-1375.
(31) X. S. Peng, Y. W. Wang, J. Zhang, X. F. Wang, G. W. Meng, L. D. Zhang, “Large-scale synthesis of In2O3 nanowires”, Appl. Phys. A 2002, 74 (3), 437-439
(32) X. S. Peng, X. F. Wang, Y. W. Wang, C. Z. Wang, G. W. Meng, L. D. Zhang, “Novel method synthesis of CdO nanowires”, J. Phys. D: Appl. Phys. 2002, 35 (20), L101-L104.
(33) X. S. Peng, J. Zhang, X. F. Wang, Y. W. Wang, L. X. Zhao, G. W. Meng, L. D. Zhang, “Synthesis of highly ordered CdSe nanowire arrays embedded in anodic alumina membrane by electrodeposition in ammonia alkaline Solution”, Chem. Phys. Lett., 2001, 343 (5-6), 470-474.
(34) X. S. Peng, G. W. Meng, J. Zhang, L. X. Wang, Y. W. Wang, L. D. Zhang, “Electrochemical fabrication of ordered Bi2S3 nanowire arrays”, J. Phys. D: Appl. Phys. 2001, 34 (22), 3224-3228.
(35) A. C. Chen, X. S. Peng, K. Koczkur, B. Miller, “Super-hydrophobic tin oxide nanoflowers”, Chem. Commun., 2004, (17), 1964-1965. (Reported by Chemical and Engineering News, Vol. 82, No. 37, p.24, September 13, 2004; Highlighted in the Chemical Communications 40th Anniversary Celebration in 2005)
(36) M. Pumera, B. ?míd, X. S. Peng, D. Golberg, J. Tang, I. Ichinose, “Spontaneous coating of carbon nanotubes with an ultrathin polypyrrole layer”, Chemistry- A European Journal, 2007, 13 (27), 7644-7649.
(37) Y. H. Luo, J. G. Huang, J. Jin, X. S. Peng, W. Schmitt, I. Ichinose, “Formation of positively charged copper hydroxide nanostrands and their structure characterization”, Chem. Mater. 18 (7), 2006, 1795-1802.
(38) Y. T. Tian, G. W. Meng, T. Gao, S. H. Sun, T. Xie, X. S. Peng, C. H. Ye and L. D. Zhang, “Alumina nanowire arrays standing on a porous anodic alumina membrane”, Nanotechnology, 2004, 15 (1),189-191.
(39) X. S. Fang, C. H. Ye, X. S. Peng, Y. H. Wang, Y. C. Wu, L. D. Zhang, “Large-scale synthesis of ZnS nanosheets by the evaporation of ZnS nanopowders”, J. Crystal Growth 2004, 263 (1-4), 263-268.
(40) G. W. Meng, X. S. Peng, Y. W. Wang, C. Z. Wang, X. F. Wang, L. D. Zhang, “Synthesis and photoluminescence of aligned SiOx nanowire arrays”, Appl. Phys. A, 2003, 76 (1),119-121.
(41) S. H. Sun, G. W. Meng, T. Gao, M. G. Zhang, Y. T. Tian, X. S. Peng, Y. X. Jin, L. D. Zhang, “Micrometer-sized Si-Sn-O structures with SiOx nanowires on their surface”, Appl. Phys. A. 2003, 76 (6), 999-1002.
(42) S. H. Sun, G. W. Meng, Y. W. Wang, T. Gao, M. G. Zhang, X. S. Peng, L. D. Zhang, “Large-Scale Synthesis of SnO2 Nanobelts”, Appl. Phys. A, 2003, 76 (2), 287-289.
(43) B. Y. Geng, G. W. Meng, L. D. Zhang, G. Z. Wang, and X. S. Peng, “CdSe-filled silica nanotubes”, Chem. Commun., 2003, (20), 2572-2573.
(44) B. Y. Geng, L. D. Zhang, G. W. Meng, T. Xie, X. S. Peng, Y. Lin, “Large-scale synthesis and photoluminescence of single-crystalline β-Ga2O3 nanobelts”, J. Crys. Growth 2003, 259 (3), 291-295.
(45) B. Y. Geng, Y. Lin, X. S. Peng, G. W. Meng, L. D. Zhang, “Large-scale synthesis of single-crystalline Te nanobelts by a low-temperature chemical vapor deposition route”, Nanotechnology, 2003, 14 (9), 983-986.
(46) B. Y. Geng, T. Xie, X. S. Peng, Y. Lin, X. Y. Yuan, G. W. Meng, L. D. Zhang, “Large-scale synthesis of ZnO nanowires using a low-temperature chemical route and their photoluminescence properties”, Appl. Phys. A 2003, 77 (3-4), 363-366.
(47) X. S. Fang, C. H. Ye, X. S. Peng, Y. H. Wang, Y. C. Wu, L. D. Zhang, “Temperature-controlled growth of δ-Al2O3 nanobelts and nanosheets”, J. Mater. Chem., 2003, 13 (12), 3040-3043
(48) Y. W. Wang, C. H. Liang, G. W. Meng, X. S. Peng and L. D. Zhang, “Synthesis and photoluminescence properties of amorphous SiOx nanowires”, J. Mater. Chem., 2002, 12 (4), 651-653.
(49) Y. W. Wang, L. D. Zhang, C. H. Liang, G. Z. Wang, X. S. Peng, “Catalytic growth and photoluminescence properties of semiconductor single-crystal ZnS nanowires”, Chem. Phys. Lett. 2002, 357 (3-4), 314-318.
(50) Y. W. Wang, L. D. Zhang, G. W. Meng, X. S. Peng, Y. X. Jin and J. Zhang, “Fabrication and the annealing temperature dependence of magnetic properties for ordered ferromagnetic-nonmagnetic alloy nanowire arrays”, J. Phys. Chem. B, 2002, 106 (10), 2502-2507.
(51) L. X. Zhao, G. W. Meng, X. S. Peng, X. Y. Zhang, L. D. Zhang, “Synthesis, Raman scattering and Infrared spectra of large-scale GaN nanorods”, J. Crystal Growth, 2002, 235 (1-4), 124-128.
(52) L. X. Zhao, G. W. Meng, X. S. Peng, X. Y. Zhang, “Large-scale synthesis of GaN nanorods and their photoluminescence”, Appl. Phys. A 2002, 74 (4), 587-590.
(53) C. Z. Wang, G. W. Meng, Q. Fang, X. S. Peng, Y. W. Wang, “Structure and magnetic property of Ni-Cu alloy nanowires electrodeposited into the pores of anodic alumina membranes”, J. Phys. D: Appl. Phys. 2002, 35 (8), 738-741.
(54) J. Zhang, L. Zhang, X. S. Peng, X. F. Wang, “Vapor-solid growth route to single-crystalline indium nitride Nanowires”, J. Mater. Chem. 2002, 12 (4), 802-804.
(55) J. Zhang X. F. Wang, X. S. Peng, L. D. Zhang, “Fabrication, morphology and structural characterization of ordered single-crystal Ag nanowires” Appl. Phys. A. 2002, 75 (4), 485.
(56) Y. W. Wang, L. D. Zhang, G. Z. Wang, X. S. Peng, Z. Q. Chu, C. H. Liang, “Catalytic growth of semiconducting zinc oxide nanowires and their photoluminescence properties”, J. Cryst. Growth, 2002, 234 (1), 171-175.
(57) J. Zhang, X. S. Peng, X. F. Wang, Y. W. Wang, L. D. Zhang, “Micro-Raman investigation of GaN nanowires prepared by direct reaction Ga and NH3”, Chem. Phys. Lett. 2001, 345 (5-6),372-376.
(58) J. Zhang, L. D. Zhang, X. F. Wang, C. H. Liang, X. S. Peng, Y. W. Wang, “Fabrication and photoluminescence of ordered GaN nanowire arrays”, J. Chem. Phys. 2001, 115 (13), 5714-5717.
(59) J. Zhang, L. D. Zhang, X. S. Peng, X. F. Wang, “Fabrication of MgO nanobelts using a halide source and their structure characterization”, Appl. Phys. A, 2001, 73 (6), 773-775.
(60) X. F. Wang, J. Zhang, H. Z. Shi, Y. W. Wang, G. W. Meng, X. S. Peng, L. D. Zhang, “Fabrication and temperature dependence of the resistance of single-crystalline Bi nanowires”, J. Appl. Phys. 2001, 89 (7), 3847-3851.
(61) X. F. Wang, L .D. Zhang, J. Zhang, H. Z. Shi, X. S. Peng, J. Fang, J. L. Chen and B. J. Gao, “Ordered single-crystalline Bi nanowire arrays embedded in nanochannels of anodic alumina membranes”, J. Phys. D: Appl. Phys. 2001, 34 (3), 418-421.

 

Conference List

1 X. S. Peng, A. Chen, “Growth and properties of nanostructured rutile TiO2 films on Ti substrate”, the 207th Electrochemical Society Meeting, Quebec, Canada, May 2005. (oral)
2 X. S. Peng, J. Jin, I. Ichinose, “Nanocoating of conjugated polymers on copper hydroxide nanostrands” International Symposium of the Colloid and Surface Conference, Sapporo, Japan, September 2006. (oral)
3 X. S. Peng, J. Jin, I. Ichinose, “Mesoporous separation membranes of polymer-coated copper hydroxide nanostrands”, 12th International Conference on Surface and Colloid Science, Beijing, China, October 2006. (poster)
4 X. S. Peng, J. Jin, I. Ichinose, “Composite nanofibrous thin films for size selectively separation of proteins”. 21st Conference of the European Colloid and Interface Society, Geneva, Switzerland, September, 2007 (Invited talk).
5 X. S. Peng, I. Ichinose, “ultrathin free-standing nanofibrous composite films”, The NIMS, conference 2007 on recent breakthroughs in Materials Science and Technology, Japan, July 11-13th, 2007 (poster).
6 X. S. Peng, I. Ichinose, “Free-standing ultrathin membranes films: based on nanostrands“, ICYS final workshop and MANA international Symposium, March 10-13th, 2008, Japan. (poster).
7 X. S. Peng, I. Ichinose, “High-speed molecular separation using ultrathin protein films”, 8th International Symposium on Biomimetic Materials Processing, Nagoya, Japan, January, 2008. (Lecture)
8 X. S. Peng, I. Ichinose, “Ultrafast Separation Membrane with Protein Nano-Gate” The 7th China International Conference on NanoScience and Technology, Wuhan Oct 23-27th, 2008. (Lecture).
9 X. S. Peng, “From Metal Hydroxide Nanostrands to Ultrafast Separation Membranes”, CHINANANO 2009, 2009 (Invited talk).
10 X. S. Peng, “Nanostructured thin films for separation membranes”, The 8th China International Conference on NanoScience and Technology, Xiangtan Oct 23-27th, 2009. (Lecture)
 

Patent List

1 Martin Pumera, Xinsheng Peng, Jie Tang, Izumi Ichinose, “Carbon nanotubes coated uniformly with ultrathin nanoprecise polypyrrole layers” 2007, Japanese Patent Office application filed (Application no.:2007-004956). Japan.
2 Xinsheng Peng, Izumi Ichinose, “A flexible free-standing ultrathin or thin protein membrane and its fabrication method and applications”, 2007, Japanese Patent Office application filed (Application No. 2007-181832; 2007-2902381) Japan and International (Application No. DBZ16608MS-P). （licensed）
3 Molecular constructed separation membranes, Xinsheng Peng, Izumi Ichinose, 2009-180267 (09-MS-037F), Japan。（Licensed）
4 Nanoporous membranes preparation and separation applications, Sandeep Ghosh, Xinsheng Peng, Izumi Ichinose, 2009-181348 (09-MS-038F), Japan。
5 One method for the preparation of polymer nanofibers, Sadaki Samitsu, Xinsheng Peng, Rui Zhang, Izumi Ichinose, 2009 (2009-180267). Japan。
6 Izumi Ichinose, Xinsheng Peng, Sadaki Samitsu, Satanu, Karan, nanocarbon thin film preparation and separation membranes, 2010,(10MS014F), Japan.