Advanced Low-Dimensional Nanomaterials Laboratory

Publications

2021

S. Tang, J. Tang, J. Uzuhashi, T. Ohkubo, W. Hayami, J. Yuan, M. Takeguchi, M. Mitome and L-C. Qin, "A stable LaB6 nanoneedle field-emission point electron source", Nanoscal Advance, (2021) in press.

S. Lin, J.Tang, K. Zhang, T.S. Suzuki, Q. Wei, M. Mukaida, Y. Zhang, H. Mamiya, X. Yu, L-C Qin, "High-rate Supercapacitor Using Magnetically Aligned Graphene", Journal of Power Sources, 482 228995 (2021)

2020

R. Gao, J. Tang, K. Zhang, K. Ozawa, L-C Qin, "A Sandwich-like Silicon窶田arbon Composite Prepared by Surface-polymerization for Rapid Lithium-ion Storage", Nano Energy, 78, 105341 (2020).

S. Tang, J. Tang, T-W. Chiu, J. Uzuhashi, D-M. Tang, T. Ohkubo, M. Mitome, F. Uesugi, M. Takeguchi, L-C. Qin, "A Controllable and Efficient Method for the Fabrication of a Single HfC Nanowire Field-emission Point Electron Source Aided by Low keV FIB Milling", Nanoscale, 12 16770 (2020).

R. Gao, J. Tang, X. Yu, K. Zhang, K. Ozawa, L-C. Qin, "A Highly Stable SiOx-based Anode Enabled by Self-assembly with Polyelectrolyte", Electrochimica Acta, 360 136958 (2020).

L. Kang, R. Sato, B. Zhang, Y. Takeda, J. Tang, "Experimental Dispersion of the Third-order Optical Susceptibility of Graphene Oxide", Optical Materials Express, 10 3041 (2020).

L. Kang, R. Sato, B. Zhang, Y. Takeda, J. Tang, "Broadband and Comparative Third-order Nonlinearities in Reduced Graphene Oxide with CVD Graphene", Optical Materials, 110 110463 (2020).

L. Kang, J. Tang, S. Tang, K. Zhang, Y. Hato, Y. Takeda, L-C. Qin, "Reduced Graphene Oxide Decorated with Crystallized Cobalt Borate Nanoparticles as an Anode in Lithium Ion Capacitors", Chemical Physics Letters, 759 137964 (2020).

T-W. Chiu, J. Tang, S. Tang, W. Hayami, J. Yuan, L-C. Qin, "Reduced Work Function and Improved Field Emission Stability of ZrC Nanowires upon Surface Oxidation", Applied Physics Letters, 117 053101 (2020).

R. Gao, J. Tang, X. Yu, K. Zhang, K. Ozawa, L.-C. Qin, "A Green Strategy for Preparation of Honeycomb-like Silicon Composite with Enhanced Lithium Storage Properties", Nanoscale, 12, 12849 (2020).

T.-W. Chiu, J. Tang, S. Tang, J. Yuan, L.-C. Qin, "Growth and Field窶職mission of Single窶燭rystalline Hafnium Carbide Nanowire", Physica Status Solidi (a) Applications and Materials Science, 217, 2000007 (2020). DOI: 10.1002/pssa.202000007

T.-W. Chiu, J. Tang, S. Tang, J. Yuan, L.-C. Qin, "Synthesis and Field Emission of ZrC Nanowire", Materials Today Communications, 25, 101240 (2020). DOI: 10.1016/j.mtcomm.2020.101240

R. Gao, J. Tang, X. Yu, S. Lin, K.Zhang, and L.-C. Qin, "Layered Silicon-Based Nanosheets as Electrode for 4 V High-Performance Supercapacitor", Adv. Funct. Mater., 30, 2002200 (2020). DOI: 10.1002/adfm.202002200

S. Tang, J. Tang, T-W Chiu, J. Uzuhashi, D-M. Tang, T. Ohkubo, M. Mitome, F. Uesugi, M. Takeguchia and L-C. Qin, "A controllable, simple and fast method for making single HfC nanowire field-emission point electron sources aided by low keV FIB milling", Nanoscale, 12[35], 18263 (2020). DOI: 10.1039/D0NR03406A

S. Tang, J. Tang, T. Chiu, W. Hayami, J. Uzuhashi, T. Ohkubo, F. Uesugi, M. Takeguchi, M. Mitome, and L-C Qin, "A HfC nanowire point electron source with oxycarbide surface of lower work function for high-brightness and stable field-emission", Nano Research, 13, 1620-1626 (2020). DOI: 10.1007/s12274-020-2782-0

R. Gao, J. Tang, X. Yu , S. Tang, K. Ozawa, T. Sasaki, L.-C. Qin, " In situ synthesis of MOF-derived carbon shells for silicon anode with improved lithium-ion storage", Nano Energy, 70, 10444-10452 (2020). DOI: 10.1016/j.nanoen.2019.104444

X. Yu, J. Tang, K. Terabe, T. Sasaki, R. Gao, Y. Ito, K. Nakura, K. Asano, M. Suzuki, "Fabrication of graphene/MoS2 alternately stacked structure for enhanced lithium storage", Materials Chemistry and Physics, 239, 121987-121994 (2020). DOI: 10.1016/j.matchemphys.2019.121987

2019

R. Gao, J. Tang, K. Terabe, X. Yu, T. Sasaki, A. Hashimoto, K. Asano, M. Suzuki, K. Nakura, "Preparation of layered Si materials as anode for lithium-ion batteries", Chemical Physics Letters: 730, 198-205 (2019). DOI: 10.1016/j.cplett.2019.06.010

2018

J. Li, J. Tang, J. Yuan, K. Zhang, Y. Sun, X. Yu, H. Zhang, and L.-C. Qin, "Porous carbon nanotube/graphene composites for high-performance supercapacitors", Chemical Physics Letters: 693, 60-65 (2018). DOI: 10.1016/j.cplett.2017.12.052

K. Zhang, J. Tang, J. Yuan, J. Li, Y. Sun, Y. Matsuba, D.-M. Zhu, and L.-C. Qin, "Production of Few-Layer Graphene via Enhanced High-Pressure Shear Exfoliation in Liquid for Supercapacitor Applications", ACS Applied Nano Materials, 1, 2877-2884 (2018). DOI: 10.1021/acsanm.8b00515

2017

J. Li, J. Tang, J. Yuan, K. Zhang, Y. Sun, H. Zhang, and L.-C. Qin, "Enlarging Energy Density of Supercapacitors Using Unequal Graphene Electrodes and Ionic Liquid Electrolyte", Electrochimica Acta: 258, 1053-1058 (2017). DOI: 10.1016/j.electacta.2017.11.157

Y. Sun, J. Tang, F.X. Qin, J. Yuan, K. Zhang, J. Li, D.-M. Zhu, and L.-C. Qin. "Hybrid Lithium-Ion Capacitors with Asymmetric Graphene Electrodes. " Journal of Materials Chemistry: 5, 13601-13609 (2017). DOI: 10.1039/c7ta01113j

Q. Shao, J. Tang, Y. Sun, J. Li, K. Zhang, J. Yuan, D.-M.Zhu, and L.-C.Qin., "Unique interconnected graphene-SnO2 nanoparticle spherical multilayers for lithium-ion battery applications", Nanoscale: 9, 4439-4444 (2017). DOI:10.1039/c6nr09689a

Y. Sun, J. Tang, K. Zhang, J. Yuan, J. Li, D.-M. Zhu, K. Ozawa, and L.-C. Qin, "Comparison of Reduction Products from Graphite Oxide with that from Graphene Oxide for Anode Application in Lithium-ion Batteries and Sodium-ion Batteries", Nanoscale, 9(7), 2585-2595 (2017). DOI: 10.1039/C6NR07650E

H. Zhang, J. Tang, J. Yuan, and L.-C. Qin， "Ultrabright and monochromaticnanowire electron sources", MRS Bulletin, 42, 511-517 (2017). DOI:10.1557/mrs.2017.144

2016

D. Ye, Y.Yu, J.Tang, L.Liu, and Y.Wu, "Electrochemical Activation of Carbon Cloth in Aqueous Inorganic Salt Solution for Superior Capacitive Performance.", Nanoscale: 8, 10406-10414(2016). DOI: 10.1039/C6NR00606J

唐捷、新谷紀雄 「グラフェンの特性を活かした高性能スーパーキャパシター」、 酸化グラフェンの機能と応用、138-143（2016）。

J. Li , J. Tang, J. Yuan, K. Zhang, Q. Shao, Y. Sun and L.-C.Qin. "Interaction between Graphene and Ionic Liquid Electrolyte in Supercapacitors ". Electrochimi Acta: 197, 84-91 (2016).

H. Zhang, J. Tang, J. Yuan, Y. Yamaguchi, T.Suzuki, N. Shinya, K. Nakajima and L.-C. Qin, "An Ultrabright and Monochromatic Electron Point Source Made Of a LaB6 Nanowire.", Nature Nanotechnology: 273-279 (2016).

2015

Han Zhang, Jie Tang, Jinshi Yuan, Yasushi Yamaguchi, Taku T. Suzuki, Norio Shinya, Kiyomi Nakajima, and Lu-Chang Qin. "An Ultrabright and Monochromatic Electron Point Source Made Of a LaB6 Nanowire." Nature Nanotechnology, 276, 1-8.

Q. Shao, J. Tang, Y. Lin, J. Li, F. Qin, K. Zhang, J. Yuan, and L.-C. Qin. "Ionic Liquid Modified Graphene for Supercapacitors with High Rate Capability." Electrochimica Acta, 176, 1441-1446.

X.F. Jiang, X.-B. Wang, P. Dai, Q. Weng, D.-M. Tang, J. Tang, Y. Bando, and D. Golberg. "High-Throughput Fabrication of Strutted Graphene by Ammonium-Assisted Chemical Blowing for High-Performance Supercapacitors." Nano Energy, 16, 81-91.

L. Liu, X. Yue, J. Zhao, Q. Cheng, and J. Tang. "Graphene Antidot Lattices as Potential Electrode Materials for Supercapacitors." Physica E:Low-dimensional Systems and Nanostructures, 69, 316-321.

Q. Shao, J. Tang, Y. Lin, J. Li, F. Qin, J. Yuan, and L.-C.Qin. "Carbon Nanotube Spaced Graphene Aerogels with Enhanced Capacitance in Aqueous and Ionic Liquid Electrolytes." Journal of Power Sources, 278, 751-759.

2014

Q. Cheng, J. Tang, H. Zhang, and L.-C.Qin. "Vertically Aligned Cobalt Hydroxide Nano-Flake Coated Electro-Etched Carbon Fiber Cloth Electrodes for Supercapacitors." Chemical Physics Letters, 616, 35-39.

Q. Cheng, J. Tang, N. Shinya, and L.-C.Qin. "Co(OH)2Nanosheet-Decorated Graphene-CNT Composite for Supercapacitors of High Energy Density." Science and Technology of Advanced Materials, 15, 014206-014212.

M. Zhou, T. Tian, X. Li, X. Sun, J. Zhang, P. Cui, J. Tang, and L.-C.Qin. "Production of Graphene by Liquid-Phase Exfoliation of Intercalated Graphite." International Journal of Electrochemical Science, 9, 810-820.

J. Zhang, T. Tian, X. Li, X. Sun, J. Zhang, P. Cui, J. Tang, and L.-C. Qin. "Synthesis of Graphene from Dry Ice in Flames and its Application in Supercapacitors." Chemical Physics Letters, 591, 78-81.

2013

F. Zhang, J. Tang, Z.H. Wang, and L.C. Qin. "Graphene Carbon Nanotube Composite Aerogel for Selective Detection of Uric Acid." Chemical Physics Letters, 590, 121-125.

S. Qingguo, J. Tang, Y. Lin, F. Zhang, J. Yuan, H. Zhang, N. Shinya, and L.-C. Qin. "Synthesis and Characterization of Graphene Hollow Spheres for Application in Supercapacitors." Journal of Materials Chemistry A, 1, 15423-15428.

F. Zhang, J. Tang, N. Shinya, and L.-C.Qin. "Hybrid Graphene Electrodes for Supercapacitors of High Energy Density." Chemical Physics Letters, 584, 124-129.

Z.H Wang, J. Xia, C. Zhou, B. Via, Y. Xia, F. Zhang, Y. Li, L. Xia, and J. Tang. "Synthesis of Strongly Green-Photoluminescent Graphene Quantumdots for Drug Carrier." Colloids and Surfaces B: Biointerfaces, 112, 192-196.

M. Zhou, T. Tian, X. Li, X. Sun, J. Zhang, Y. Li, L. Xia, and J. Tang. "Supercapacitance of Chemically Converted Graphene with Composite Pores." Chemical Physics Letters, 581, 64-69.

K. Miyazawa, C. Hirata, R. Kano, T. Wakahara, H. Takeya, T. Yamaguchi, Y. Takano, J. Tang, Y. Lin, and M. Tachibana. "Structural Characterization of the C60 Nanowhiskers Heat Treated at High Temparatures for Potential Superconductor Application." Transactions of the Materials Research Society of Japan, 38(4), 517-520.

Z.H. Wang, J. Tang, F. Zhang, J. Xia, N. Sun, G. Shi, Y. Xia, L. Xia, and L.-C. Qin. "Elimination of Ascorbic Acid and Sensitive Detection of Uric Acid at the MnO2 Nanorods Graphene-based Modified Electrode." International Journal of Electrochemical Science, 8, 9967-9976.

J. Xia, Z.H. Wang, X. Guo, Y. Xia, F. Zhang, J. Xia, N. Sun, G. Shi, Y. Xia, L. Xia, and L.-C. Qin. "Recognition and Electrochemical Determination of Environmental Contaminants Nitrophenol by Cyclodextrin Homologous Functionalized Graphene Modified Electrodes." International Journal of Electrochemical Science, 8, 8774-8785.

G. Shi, Z.H. Wang, J. Xia, J. Tang, F. Zhang, Y. Li, Y. Xia, and L. Xia. "A Novel Architecture Intercalating Redox-Active Polymeric Groups within Graphene Frameworks to Host Platinum Nanoparticles for Methanol Oxidation." International Journal of Electrochemical Science, 8, 8764-8773.

Z.H. Wang, J. Xia, Y. Xia, C. Lu, G. Shi, F. Zhang, F. Zhu, Y. Li, L. Xia, and J. Tang. "Fabrication and Characterization of a Zirconia/Multi-Walled Carbon Nanotube Mesoporous Composite." Materials Science and Engineering C, 33, 3931-3934.

Z.H. Wang, J. Xia, X. Qiang, Y. Xia, G. Shi, F. Zhang, G. Han, L. Xia, and J. Tang. "Polymer-Assisted in Situ Growth of Copper Nanoparticles on Graphene Surface for Non-Enzymatic Electrochemical Sensing of Glucose." International Journal of Electrochemical Science, 8, 6941-6950.

Q. Cheng, J. Tang, N. Shinya, and L.-C. Qin. "Polyaniline Modified Graphene and Carbon Nanotube Composite Electrode for Asymmetric Supercapacitors of High Energy Density." Journal of Power Sources, 241, 423-428.

M. Zhou, J. Tang, Q. Cheng, G. Xu, P. Cui, and L.-C. Qin. "Few Layer Graphene Obtained by Electrochemical Exfoliation of Graphite Cathode." Chemical Physics Letters, 572, 61-65.

Zonghua Wang, Q. Han, J. Xia, M. Ding, and J. Tang. "Graphene-Based Solid-Phase Extraction Disk for Fast Separation and Preconcentration of Trace Polycyclic Aromatic Hydrocarbons from Environmental Water Samples." J. Sep. Sci, 36, 1834-1842.

J. Yuan, H. Zhang, J. Tang, N. Shinya, Y. Lin, and L.C. Qin. "Synthesis and Characterization of Single Crystalline GdB44Si2 Nanostructures." Journal of Materials Science, 48, 1555-1561.

2012

J. Yuan, H. Zhang, J. Tang, N. Shinya, K. Nakajima, and L.–C. Qin. “Synthesis and characterization of single crystalline hafnium carbide nanowires.” J. Am. Ceram. Soc., in press.

J. Yuan, H. Zhang, J. Tang, N. Shinya, K. Nakajima, and L.-C. Qin. "Field emission from single crystalline HfC nanowires." Applied Physics Letters, 100, 113111.

2011

Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, L.-C. Qin. "Polyaniline Coated Electro-etched Carbon Fiber Cloth Electrodes for Supercapacitor." The Journal of Physical Chemistry C, 115, 23584-23590.

Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, L.-C. Qin. "Graphene and Carbon Nanotubes Composite Electrodes for Supercapacitors." Physical Chemistry Chemical Physics, 13, 17615-17624.

Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, L.-C. Qin. "Graphene and Nanostructured MnO2 Composite Electrodes for Supercapacitors." Carbon, 49, 2917-2925.

Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, L.-C. Qin. "Nano-flower MnO2 Coated Graphene Composite Electrodes for Energy Storage Devices." Materials Research Society Symposium Processing, 1303, 129-134.

2010

Jun Ma, Jie Tang, Qian Cheng, Han Zhang, Lu-Chang Qin. "Effects of Surfactants on Spinning Carbon Nanotube Fibers by an Electrophoretic Method." Science and Technology of Advanced Materials, 11, 1-7.

F. Qin, H.-X. Peng, J. Tang, and L.-C. Qin. "Multifunctional composites with glass-coated magnetic microwires for sensing applications." Composites Part A: Applied Science and Manufacturing, 41, 1823-1828.

Q. Cheng, J. Ma, H. Zhang, N. Shinya, L.-C. Qin, and J. Tang. "Electrodeposition of MnO2 on carbon nanotube thin films as flexible electrodes for supercapacitors." Transactions of the Materials Research Society of Japan, 35(2), 369-372.

Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, and L.-C. Qin. "Nano-flower MnO2 coated graphene composite electrodes for energy storage devices." Material Research Society Symposium Proceedings, 1303, 129-134.

H. Zhang, J. Tang, J. Yuan, J. Ma, N. Shinya, K. Nakayama, H. Murakami, T. Ohkubo, and L.-C. Qin. "Nanostructured LaB6 field emitter with lowest apical work function.” Nano Letters, 10, 3539-3544.

2009

J. Ma, J. Tang, H. Zhang, N. Shinya, L-C. Qin. “Ultra-thin Carbon Nanotube Fibrils of High Electrochemical Capacitance.” ACS Nano, 3(11), 3679-3683.

Y. Hou, J. Tang, H. Zhang, C. Qian, Y. Feng, and J. Liu. “Functionalized Few-Walled Carbon Nanotubes for Mechanical Reinforcement of Polymeric Composites.” ACS Nano, 13(5), 1057-1062.

H. Zhang, J. Tang, P. Zhu, J. Ma, L-C Qin. “High tensile modulus of carbon nanotube nano-fibers produced by dielectrophoresis.” Chemical Physics Letters, 478, 230-233.

2008

K. Kato, K. Ishioka, M. Kitajima, J. Tang, R. Saito, and H. Petek. “Coherent Phonon Anisotropy in Aligned Single-Walled Carbon Nanotubes.” Nano Letter, 8(19), 3102-3108.

H. Zhang, J. Tang, L. Zhang, A. Bai, L.-C. Qin. “Atomic force microscopy measurement of the Young's modulus and hardness of single LaB6 nanowires.” Applied Physics Letters, 92, 173121.

D. Chen, T. Sasaki, J. Tang, L.–C. Qin. “Effect of Deformation on the Electronic Structure of a Single-Walled Carbon Nanotube Bundle.” Physical Review B, 77, 125412.

2007

M. Pumera, B. Smid, X. Peng, D. Golberg, J. Tang, and I. Ichinose. “Spontaneous Coating of Carbon Nanotubes with an Ultrathin Polypyrrole Layer.” Chemistry -A European Journal, 13(27), 7644-7649.

M. Pumera, S. Sanchez, I. Ichinose, and J. Tang. “Electrochemical Nanobiosensors.” Sensors and Actuators B-Chemical, 123(2), 1195-1205.

2006

G. Zhao, Q. Zhang, H. Zhang, G. Yang, O. Zhou, L.-C. Qin, and J. Tang. “Field emission of electrons from a Cs-doped single carbon nanotube of known chiral indices.” Applied Physics Letters, 89, 263113.

G. Zhao, J. Zhang, Q. Zhang, H. Zhang, O. Zhou, L.-C. Qin, and J. Tang. “Fabrication and characterization of single carbon nanotube emitters as point electron sources.” Applied Physics Letters, 89, 193113.

H. Zhang, J. Tang, Q. Zhang, G. Zhao, G. Yang, J. Zhang, O. Zhou, and L.-C. Qin. “Field emission of electrons from single LaB6 nanowires.” Advanced Materials, 18, 87-91.

2005

J. Tang, G. Yang, Q. Zhang, A. Parhat, B. Maynor, J. Liu, L.-C. Qin, O. Zhou. “Rapid and reproducible fabrication of carbon nanotube AFM probes by dielectrophoresis.” Nano Letter, 5, 11-14.

H. Zhang, Q. Zhang, J. Tang, and L.–C. Qin. “Single-crystalline LaB6 nanowires.” Journal of American Chemical Society, 127, 2862-2863.

G. Yang, J. Tang, S. Kato, Q. Zhang, L.-C. Qin, M. Woodson, J. Liu, J.W. Kim, P.T. Littlehei, C. Park, and O. Zhou. “Magnetic nanowire based high-resolution magnetic force microscope probes.” Applied Physics Letters, 87, 123507.

H. Zhang, Q. Zhang, J. Tang, and L.-C. Qin. “Single-crystalline CeB6 nanowires.” Journal of the American Chemical Society, 127, 8002-8003.

C.Y. Xu, Q. Zhang, H. Zhang, L. Zhen, J.Tang, and L.-C. Qin. “Synthesis and characterization of single-crystalline alkali titanate nanowires.” Journal of the American Chemical Society, 127, 11584-11585.

H. Zhang, Q. Zhang, G. Zhao, J. Tang, O. Zhou, and L.-C. Qin. “Single-crystalline GdB6 nanowire field emitters.” Journal of the American Chemical Society, 127, 13120-13121.

Y. Nakamoto, T. Matsuoka, T. Kagayama, K. Shimizu, J. Tang, N. Kobayasi, S. Nagata, T. Kikegawa. “The Phase Transition of CuCrZrS4 at High Pressure.” Physica B, 359, 1213-1215.

R.C. Yu, J. Tang, L.D. Yao, A. Matsushita, Y. Yu, F.Y. Li, and C.Q. Jin. “Conjectured orbital ordering behavior of Nd0.5Sr0.5MnO3 under.” Journal of Applied Physics, 97, 83910.

2004

J. Zhang, J. Tang, G. Yang, Q. Qiu, L.C. Qin, O. Zhou. “Efficient Fabrication of Carbon Nanotube Point Electron Sources by Dielectrophoresis." Advanced Materials, 16, 1219-1222.

Q. Zhang, J. Tang, G. Yang, G. Zhao, O. Zhou, and L.-C. Qin. “Non-destructive examination of carbon nanotube AFM probes by HRTEM.” Proceedings of Microscopy and Microanalysis, 10, Suppl. 2, 548-549.

G. Zhao, J. Zhang, Q. Zhang, J. Tang, O. Zhou, and L.-C. Qin. “Fabrication and test of single nanotube emitter as point electron source.” Proceedings of Microscopy and Microanalysis, 10, Suppl. 2, 550-551.

2003

J. Tang, B. Gao, H. Geng, O.D. Velev, L.C. Qin, and O. Zhou. “Assembly of 1D Nanostructures into sub-micron diameter fibrils with controlled and variable length by dielectrophoresis.” Advanced Materials, 15, 1352-1355.

T. Naka, J. Tang, H. Ye, A. Matsushita, T. Matumoto, T. Setai, and J. Onugi. “Pressure-Induced Magnetic Transition in the Van Vleck Paramagnet PrCu2.” J. Phys. Soc., 72, 1758-1762.

2002

I. Shirotani, J. Hayashi, T. Adachi, C. Sekine, T. Kawakami, T. Nakanishi, H. Takahashi, J. Tang, A. Matsushita, T. Matsumoto. “Metal to insulator transition of filled skutterudite PrRu4P12 at low temperatures and high pressure.” Physica B, 322, 408-412.

H.W. Gu, J. Tang, A. Matsushita, H. Abe, T. Taniguchi, Y. Miyako. “Pressure effect on the specific heat and electrical resistance in the Ce(Ru0.6Rh0.4)2Si2 compound.” Physica B: Condensed Matter, 312-313, 248-250.

H.W. Gu, J. Tang, A. Matsushita, H. Abe, T. Taniguchi, Y. Miyako. “Spin Density Wave State under Pressure in the Heavy Fermion Compound Ce(Ru0.95Rh0.05)2Si2.” Physical Review B, 65, 024403.

J. Tang, L.-C. Qin, A. Matsushita, Y. Takano, K. Togano, H. Kito, and H. Ihara. “Structure and Electronic Properties of Superconductor MgB2 under High Pressure.” J. Phys Condense. Matter, 14(44), 10623-10626.

J. Tang, L.-C Qin, T. Sasaki, M. Yudasaka, A. Matsushita, and S. Iijima. “Revealing Properties of Single-Walled Carbon Nanotubes under High Pressure.” J. Phys Condense. Matter, 14(44), 10575-10578.

2001

Jie Tang, Lu-Chang Qin, A. Matsushita, Y. Takano, K. Togano, H. Kito, H. Ihara. “Lattice Parameter and Tc Dependence of Sintered MgB2 Superconductor on Hydrostatic Pressure.” Physical Review B, 64, 132509.

Jie Tang, Lu-Chang Qin, Taizo Sasaki, Masako Yudasaka, Akiyuki Matsushita, and Sumio Iijima. “Structure and Property Changes of Single-walled Carbon Nanotubes under Pressure.” Synthetic metals, 121, 1245-1246.

T. Naka, J. Tang, P. Ahmet, R. Settai, and Y. Onuki. “Pressure Effects of Susceptibility and Specific Heat in PrCu2.” Journal of Magnetism and Magnetic Materials, 226, 1008-1010.

2000

J. Tang, L.C. Qin, A. Matsushita, T. Kikegawa, M. Yudasaka, S. Bandow, and S. Iijima. “Compressiblity and Polygonization of Single-walled Carbon Nanotubes under Hydrostatic Pressure.” Physical Review Letters, 85(9), 1887-1889.

A. Matsushita, T.C. Ozawa, J. Tang, and S.M. Kauzlarich. ”Physical properties of Ba2MnZn2As2O2.” Physica B, 294, 1424-1425.