Faculty Information

Specialization and related fields

Business career

Belonging society

Winning science prize

Official position and committee in Univ.

Research topic, funded research, and department laboratory expense

Activity in society

Committee and society

Book and thesis

Lecturer and lecture

（Last updated : 2024-03-30 11:51:27）

HARUYAMA Junji
Department Aoyama Gakuin University Department of Electrical Engineering and Electronics, College of Science and Engineering

Position Professor

■ Specialization and related fields

Nano/micro-systems, Nanometer-scale chemistry, Nanostructural physics, Nanomaterials

■ Business career

1.	1997/04～2007/03	Aoyama Gakuin University College of Science and Engineering Department of Electrical Engineering and Electronics
2.	2007/04～2020/03	Aoyama Gakuin University College of Science and Engineering Department of Electrical Engineering and Electronics Associate Professor
3.	2020/04～	Aoyama Gakuin University College of Science and Engineering Department of Electrical Engineering and Electronics Professor

■ Belonging society

1.	1996/06～	American Physical Society
2.	1999～	フラーレン・ナノチューブ・グラフェン学会
3.	2000～	American Association of Advanced Science
4.	2014～	The American Ceramic Society
5.	2015～	NanoScience and Material Society

■ Winning science prize

1.	2005	The American Society of Engineering Education Best Reference Work Award
2.	2005	The Choice magazine from American Library Association Outstanding Academic Title
3.	2015	NanoScience and Material Society Fellow
4.	2016	International Conference on Superconductivity and Magnetisms Best presentation Award

■ Official position and committee in Univ.

2021/04/01～2023/03/31

Aoyama Gakuin University Curriculum Coordinator

■ Research topic, funded research, and department laboratory expense

1.	2013	Ferromagnetism in graphene: toward a new concept of a nanospintronic device (Key Word : )
2.	2009～2015	Carbon Nanotube High-Tc Superconductivity (Key Word : )
3.	1995～1997	Foundation of Canadian research council (Key Word : )

■ Activity in society

1.	2011/11	グラフェン磁石の開発（IOP Physics World/Naotech Web News）
2.	2011/01	カーボンナノチューブを自然開口形成したグラフェンナノリボンにおける巨大バンドギャップの発見（Nature Nanotech., Latest Highlights, News & Views）
3.	2008/02	Breakthrough; Dawn of Carbon Device Era(内閣府・外務省海外広報誌)
4.	2006/03	Improved superconductivity in multi-walled carbon nanotubes(Physorg.com, News)
5.	2006/02	Nanotubes break superconducting record(Institue of Physics Physics Web News)
6.	2006	Aoyama Gakuin Demonstrates Nanotubes with Record Tc of 12K(Superconductor Week NEWS Letter)
7.	2004/02	カーボンナノチューブにおける近接場超伝導の発見(内閣府・外務省海外広報誌)
8.	2019～	Editorial Board, Journal of Material Science and Technology Research
9.	2019～	Guest Editor, Cambridge Scholars Publishing
10.	2018～	Editorial Board Member, EnPress Publisher LLC
11.	2018～	Editorial Board Member, Journal of Material Science and Technology Research
12.	2018～	Editorial Board Members, Materials Science: Graphene
13.	2018～	Gest Editor, Frontiers in Physics, 2018 -
14.	2018～	Lead Guest Editor, Special Issue for Advances in Materials Science and Engineering
15.	2015～	Editor, International Journal of Global Advanced Materials & Nanotechnology
16.	2015	Editor, In-Tech new book projects
17.	2013～	Guest Leading Editor, Special Issue for Advances in Condensed Matter Physics, (Hindawi Publishing Corporation)
18.	2012～	Editorial Board, Journal of Graphene spintronics and nanostructures
19.	2012～	Editorial Board, Journal of Superconductivity (Springer Verlag)
20.	2012	Editorial Board, Dataset Papers in Condensed Matter Physics (Hindawi Publishing Corporation)
21.	2010/08	Editor for book of “Recent Advancement of Carbon-based New Superconductors; Toward High-Tc”
22.	2009～	On Boarding Committees of Journal of Applied Physics
23.	2009～	On Boarding Committees of Journal of Surface Science
24.	2002/08	International scientific committee for“Nano investor conference
25.	2019～	Journal of Materials Chemistry C Reviewer
26.	2018～	Advanced Quantum Technology Reviewer
27.	2018～	Science Bulletin　Reviewer
28.	2016～	Advanced Functional Materials Reviewer
29.	2016～	Nano Scale Reviewer
30.	2016～	Nature Communications Reviewer
31.	2016～	Scientific Reports Reviewer
32.	2014～	Journal of Nanotechnology Reviewer
33.	2013～	Journal of Electronics Reviewer
34.	2013～	Journal of Nano Reviewer
35.	2013～	Materials Chemistry and Physics Reviewer
36.	2011～	Nature Nanotechnology Reviewer
37.	2010～	Physics Letters A Reviewer
38.	2009～	American Chemical Society Nano　Reviewer
39.	2008～	Physica C Reviewer
40.	2008～	Science and Technology of Advanced Materials　Reviewer
41.	2007～	Carbon Reviewer
42.	2007～	IEEE Transaction on Nanotechnology Reviewer
43.	2007～	Japanese Journal of Applied Physics Reviewer
44.	2007～	Journal of Physical Society of Japan Reviewer
45.	2007～	Journal of Physics Reviewer
46.	2006～	Journal of Materials Science and Engineering C Reviewer
47.	2002～	Inorganic Chemistry Communications Reviewer
Display 5 items
Display all(47)

■ Committee and society

1.	2015～	NanoScience and Material Society Fellow
2.	2013/12	The International Conference on Small Science Chairman, Organizer
3.	2013/07	International conference on Advanced Carbon Nanostructures Chairman, Organizer
4.	2012/06	The 1st Annual World Congress of Advanced-Material Chairman, Organizer
5.	2010/04～	The 2nd - 6th International Conference on Superconductivity and Magnetism International Advisory Committee, Organizer, and Chairman
6.	2010/03	American Physical Society March meeting, Focus session for “New Superconductors; Carbon-based New Superconductors” Organizer
7.	2009	The 17th international conference on Composite or Nano engineerings Chairman, Organizer
8.	2006	7th International Conference on the Science and Application of Nanotubes International Advisory board
9.	2005	International Symposium of Dynamic Properties of Solids International Advisory board
10.	2005	NATO ASI on Quantum computation and quantum information International Advisory board
11.	2002	Nano investor conference Member of International scientific committee and chairman
12.	2000～2001	The 8 and 9th international conferences on Composite Engineering Chairman and organizer
13.	1995～1997	IEEE Electron Devices Assistant Editor (Prof.Jimmy Xu)
Display 5 items
Display all(13)

■ Book and thesis

1.	Article	Quantum spin Hall phases in atomically thin layers Advanced Quantum Technologies (Single) 2021
2.	Article	Quantum spin Hall phases and 2D topological insulating states in atomically thin layers Journal of Applied Physics (Single) 2021
3.	Article	Room-temperature quantum spin Hall phase in laser-patterned few-layer 1T’- MoS2 Communications Materials (Collaboration) 2020/08
4.	Article	Optoelectronic properties of laser-beampatterned few-layer lateral MoS2 Schottky junctions Applied Physics Letters 117(043101) (Collaboration) 2020/07
5.	Article	Edge-derived magnetisms in very thin non-doped Bi2Te3 nanomesh Appl. Phys. Lett. 115,pp.093101 (Collaboration) 2019
6.	Article	Laser-beam patterned topological insulating states on thin semiconducting MoS2 Phys. Rev. Lett. 123,pp.146803 (Collaboration) 2019
7.	Article	Evidence of a quantum-spin-Hall phase in graphene decorated with Bi2Te3 nanoparticle Science Advances 4(11),pp.eaau6915 (Collaboration) 2018
8.	Article	Spin–orbit interaction in Pt or Bi2Te3 nanoparticle-decorated graphene realized by a nanoneedle method 113,pp.053106 (Collaboration) 2018
9.	Book	Topological insulating states in atom-thin layer Magnetism and Spintronics ISBN 978-953-51-6338-1 (Single) 2018
10.	Article	Anisotropic atomic-structure derived new field-dependence of Hall resistance in few-layer black phosphorus Royal Society of Chemistry Advances 7,pp.23427 (Collaboration) 2017
11.	Article	Edge-spin-derived magnetism in few-layer MoS2 nanomeshes AIP Advances 7,pp.125019 (Collaboration) 2017
12.	Article	Large edge-magnetism in oxidized few-layer black phosphorus nanomeshes Nano Research 10,pp.718 (Collaboration) 2017
13.	Article	Photo-response in atomically thin MoS2 lateral Schottky junction Appl. Phys. Lett. 110,pp.018715 (Collaboration) 2017
14.	Article	Edge spins in two-dimensional atom-thin layers Electronics, Special issue on Spin Optoelectronics ISSN: 2079-9292 (Single) 2016
15.	Book	Edge-driven magnetisms and its application in two-dimensional atom-thin layers:Nanomeshes on graphene and black phosphorus Nanomaterials & Nanotechnology DOI: 978-1-910086-16-2 (Single) 2016
16.	Article	Gate-Tunable Atomically Thin Lateral MoS2 Schottky Junction Patterned by Electron Beam Nano Letters 16,pp.3788 (Collaboration) 2016
17.	Article	Hexagonal boron-nitride nanomesh magnets Appl. Phys. Lett. 109,pp.133110 (Collaboration) 2016
18.	Article	Introduction of Spin–Orbit Interaction into Graphene with Hydrogenation J. Phys. Soc. Japan 85,pp.105002 (Collaboration) 2016
19.	Article	Spin phase protection in interference of electron spin waves in lightly hydrogenated graphene Royal Society of Chemistry Advances 6,pp.67586 (Collaboration) 2016
20.	Article	Edge-sensitive semiconductive behaviors in low-defect narrow graphene nanoribbons Nanomaterials and Nanotechnology doi: 10.5772/58466 (Collaboration) 2014
21.	Article	Electronic Properties of Nanopore Edges of Ferromagnetic Graphene Nanomeshes at High Carrier Densities under Ionic-Liquid Gating Materials Sciences and Applications 5(1),pp.1-9 (Collaboration) 2014
22.	Article	Graphene edge spins: -Spintronics and Magnetism in graphene nanomeshes Nanosystems: Physics, Chemistry, Mathmatics Journal 5(1),pp.25 (Collaboration) 2014
23.	Book	Graphene spintronics and magnetism The Graphene Optoelectronics. Synthesis, Characterization, Properties, and Applications ISBN-13: 978-3527336340 (Single) 2014
24.	Article	High-Efficiency Graphene Nanomesh Magnets Realized by Controlling Hydrogenation of Pore Edges Appl. Phys. Lett. 104,pp.252410 (Collaboration) 2014
25.	Book	Superconductivity in carbon nantoubes Carbon-based new superconductors; Toward high Tc ISBN-10: 9814303305 (Single) 2014
26.	Article	Tunneling magnetoresistance phenomena utilizing graphene magnet electrodes Appl. Phys. Lett. 105,pp.183111 (Collaboration) 2014
27.	Article	Electron-Spin-Based Phenomena Arising from Pore Edges of Graphene Nanomeshes Journal of superconductivity and novel magnetisms 26,pp.1037 (Collaboration) 2013
28.	Article	Graphene and Graphene Nanomesh Spintronics 2(4),pp.368 (Single) 2013
29.	Book	Magnetism and spintronics arising from Graphene edge Innovative Graphene Technologies: Developments, Characterization and Evaluation II ISBN-10: 1847359663 (Single) 2012
30.	Article	Magnetoresistance oscillations arisen from edge-localized electrons in low-defect graphene antidot-lattices Appl.Phys.Lett. 100,pp.023104 (Collaboration) 2012
31.	Article	Spontaneous spin polarization and spin pumping effect at edges of graphene antidot lattices Physica Status Solidi (b) 249(12),pp.2491 (Collaboration) 2012
32.	Article	Large intrinsic energy bandgaps in annealed nanotube-derived graphene nanoribbons Nature Nanotechnology 6,pp.45 (Collaboration) 2011
33.	Article	Interplay of Tomonaga-Luttinger liquid states and superconductive phase in carbon nanotubes Europhysics Letters 89,pp.27003 (Collaboration) 2010
34.	Article	Novel quantum phenomena in carbon nanotubes and application; Superconductivity, ome-dimensional electron correlations, and quantum bits Journal of Computational and Theoretical Nanoscience 7,pp.1-18 (Single) 2010
35.	Article	Pressure-induced superconductivity and phonon frequency in paperlike thin films of boron -doped carbon nanotubes Phys.Rev. B 82,pp.045402 (Collaboration) 2010
36.	Article	Superconductivity in boron-doped carbon nanotubes Journal of superconductivity and novel magmatism 24,pp.111 (Collaboration) 2010
37.	Book	Superconductivity in carbon nanotubes Carbon Nanotubes 33,pp.665-696 (Single) 2010
38.	Article	Interlayer nano p-n junction and quantum dot in double-walled carbon nanotubes Virtual Journal of Nanoscale Science & Technology May 16 issue (Collaboration) 2009
39.	Article	Meissner effect in boron-doped single-walled carbon nanotubes; Correlation with applied pressure and boron-doped multi-walled carbon nanotubes Journal of Physics 153,pp.012070 (Collaboration) 2009
40.	Article	Possible presence of interlayer nano p-n junction and quantum dot in double-walled carbon nanotubes with electrode contacts to different layers Appl.Phys.Lett. 94,pp.143104 (Collaboration) 2009
41.	Article	Pressure dependence of Meissner effect in boron-doped carbon nanotubes Superlattices and Microstructures 46,pp.333 (Collaboration) 2009
42.	Article	Pressure-induced superconductivity in boron-doped Buckypapers Appl.Phys.Lett. 95,pp.142503 (Collaboration) 2009
43.	Article	Direct observation of transition from Tomonaga-Luttinger liquid states to superconductive phase in carbon nanotubes Physica E 40(7),pp.2299 (Collaboration) 2008
44.	Article	Superconductivity in thin films of boron-doped carbon nanotubes Phys.Rev.Lett. 101,pp.027002 (Collaboration) 2008
45.	Article	Meissner effect in multi-walled carbon nanotubes Virtual Journal of Nanoscale Science & Technology Jan. 8 issue (Collaboration) 2008
46.	Article	Superconductivity in boron-doped carbon nanotubes Virtual Journal of Nanoscale Science & Technology July 21 issue (Collaboration) 2008
47.	Article	Anomalous Coulomb diamonds and orbital-related Tomonaga-Luttinger liquid in carbon nanoscale-peapod quantum dots Phys.Rev.B 75,pp.205431 (Collaboration) 2007
48.	Article	Atomic-like behaviors and orbital-related Tomonaga-Luttinger liquid in carbon nano-peapod quantum dots Microelectronics Journal 39(2),pp.222 (Collaboration) 2007
49.	Article	High-Tc superconductivity in carbon nanotubes Microelectronics Journal 39(2),pp.165 (Collaboration) 2007
50.	Article	Meissner effect in honeycomb arrays of multi-walled carbon nanotubes Phys.Rev.B 76,pp.245424 (Collaboration) 2007
51.	Article	Superconductivity in entirely end-bonded multi-walled carbon nanotubes Physica C 460,pp.111 (Collaboration) 2007
52.	Article	Gate-controlled Tomonaga-Luttinger liquid in peapod quantum dots Journal of Solid State Phenomena 121,pp.545 (Collaboration) 2006
53.	Article	High-Tc superconductivity in entirely end-bonded multi-walled carbon nanotubes Physica Status Solidi (b) 243,pp.3423 (Collaboration) 2006
54.	Book	Possibility of quantum computation by utilizing carbon nanotubes, -Cooper pairs splitting by Tomonaga-Luttinger liquid- Quantum Information Processing: From Theory to Experiment 199,pp.312 (Collaboration) 2006
55.	Article	Ssuperconductivity in entirely end-bonded multi-walled carbon nanotubes with high Tc Virtual Journal of Nanoscale Science & Technology February 27 issue (Collaboration) 2006
56.	Article	Superconductivity in entirely end-bonded multi-walled carbon nanotubes Phys.Rev.Lett. 96,pp.057001 (Collaboration) 2006
57.	Article	Superconductivity in multi-walled carbon nanotubes Journal of Solid State Phenomena 121,pp.13 (Collaboration) 2006
58.	Article	Atomic-like behaviors and orbital-related Tomonaga-Luttinger liquid in carbon nano-peapod quantum dots pp.19 (Collaboration) 2005
59.	Article	Correlation of Tomonaga-Luttinger liquid, superconductivity, and spin entanglement in carbon nanotubes 242(2),pp.265 (Single) 2005
60.	Article	High-Tc superconductivity in entirely end-bonded multi-walled carbon nanotubes Nanotechnology Transfer in Europe pp.13 (Collaboration) 2005
61.	Article	Proximity-induced superconductivity, spin entanglement, and Luttinger liquid in carbon nanotubes Indian J.Chemistry;special Issue for Electrochemistry at Nano Electrodes 44A,pp.968 (Collaboration) 2005
62.	Article	Suppression of anti-symmetry channel in the conductance of telescoped double-wall nanotubes Phys. Rev. B 72,pp.045413 (Collaboration) 2005
63.	Article	End-bonding multi-walled carbon nanotubes in alumina templates: superconducting proximity effect Appl.Phys.Lett. 84,pp.4714 (Collaboration) 2004
64.	Book	Mesoscopic phenomena in Nanotubes and Nanowires Encyclopedia of Nanoscience and Nanotechnology 5,pp.291-335 (Collaboration) 2004
65.	Article	Mmulti-walled carbon nanotubes end-bonded in alumina templates Virtual Journal of Nanoscale Science & Technology May 31 issue (Collaboration) 2004
66.	Article	Multi-walled carbon nanotubes with NbN superconducting electrodes; Correlation of proximity-induced superconductivity with Luttinger liquid Physica E 24,pp.32 (Collaboration) 2004
67.	Article	Supercurrent through diffusive multi-walled carbon nanotubes Physica C 408,pp.85 (Collaboration) 2004
68.	Article	Cooper pair injection into quasi-diffusive multi-walled carbon nanotubes Virtual Journal of Nanoscale Science & Technology November 10 issue (Collaboration) 2003
69.	Article	Injection of Cooper pairs into quasi-diffusive multi-walled carbon nanotubes with weak localization Phys.Rev.B 68,pp.165420 (Collaboration) 2003
70.	Article	Nanoscience with porous alumina membranes ; -Mesoccopic phenomena in carbon nanotubes and nickel nanowires Recent research development in applied physics 6,pp.211-293 (Single) 2003
71.	Article	Proximity-induced superconductivity and its re-entrance effect in niobium/multi-walled nanotube junctions Microelectronics Journal 34,pp.537-539 (Collaboration) 2003
72.	Article	Supercurrent through diffusive multi-walled carbon nanotubes with strong entanglemen IEEE Nano pp.7803-7977 (Collaboration) 2003
73.	Article	Supercurrent through multi-walled carbon nanotubes and strong entanglement Quantum Nonplaner Nanostructures and Nanoelectronics pp.51 (Collaboration) 2003
74.	Article	Abrupt magnetoresistance jumps associated with macroscopic quantum tunneling and weak localization in Ni-nanowire arrays Physica Status Solidi pp.609 (Collaboration) 2002
75.	Article	Anomalous localization effects associated with excess volume of cobalt catalyst in multi-walld carbon nanotubes Appl.Phys.Lett. 81,pp.3031 (Collaboration) 2002
76.	Article	Anti localization due to spin-orbit interactions in metal-doped carbon nanotubes” Physica B pp.23811 (Collaboration) 2002
77.	Article	Anomalous localization effects in multi-walld carbon nanotubes Virtual Journal of Nanoscale Science & Technology 6,pp.17 (Collaboration) 2002
78.	Article	Anti-localization caused by small doping of heavy-mass impurity-atoms in Carbon nanotubes and a novel spintronics device Physica E 12,pp.735 (Collaboration) 2002
79.	Article	Localization effects in multi-walld carbon nanotubes Virtual Journal of Nanoscale Science & Technology 6,pp.17 (Collaboration) 2002
80.	Article	Proximity-induced high temperature superconductivity and its reentrance effect in Niobium/multi-walled nanotube junctions Quantum Nonplanar Nanostructures & Nanoelectronics pp.115 (Collaboration) 2002
81.	Article	Proximity-induced high-temperature superconductivity with reentrance effect and anomalous localization effects sensitive to excess volume of cobalt catalyst in multi-walled carbon nanotubes Composites engineering pp.287 (Collaboration) 2002
82.	Article	Weak localization and phase interference due to spin-orbit interactions in metal-doped carbon nanotubes Phys.Rev.B 65,pp.33402 (Collaboration) 2002
83.	Article	Anti-localization in heavy-mass metal doped Carbon nanotubes and a novel spin-interference device MRS fall meeting pp.706 (Collaboration) 2002
84.	Book	Abrupt magenetoresistance jumps in Ni-nanowire systems and Coulomb blockade under elastic environment in Carbon nanotube/single junction systems Macroscopic quantum coherence and quantum computation pp.427-442 (Collaboration) 2001
85.	Article	Anti-localization caused by slight doping of heavy-mass impurities in Carbon nanotubes and a novel spintronics device Electronic properties of two dimensional systems pp.1173 (Collaboration) 2001
86.	Article	Coulomb blockade related to a localization effect in external environment in a single tunnel junctions/Carbon nanotubes system Phys.Rev.B 63,pp.073406 (Collaboration) 2001
87.	Article	Coulomb blockade related to an anti-localization effect in external environment in an array of single tunnel junctions/Carbon nanotubes Jpn J.Appl.Phys. 40(3B),pp.2033 (Collaboration) 2001
88.	Article	Drastic change of phase interference by small diffusion of heavy-mass electrode atoms in Carbon nanotubes and novel switching devices Appl.Phys.Lett. 79,pp.269 (Collaboration) 2001
89.	Article	Impact of self-organized nanostructures, nanoporous Alumina membranes: anti-localization in carbon nanotubes and magnetoresistance jumps in ferromagnetic nanowires Composites engineering pp.335 (Collaboration) 2001
90.	Article	Mesoscopic phenomena in Nano-porous Alumina films: Single nano-tunnel junctions connected to Ni-nanowires and Carbon nanotubes Appl.Sur.Sci. 175,pp.597 (Collaboration) 2001
91.	Article	Spontaneous charge polarization wave related to single electron tunneling in a Junction cell array with non-uniform parameters Jpn J. Appl. Phys. 40(3B),pp.1977 (Collaboration) 2001
92.	Book	Abrupt Magnetoresistance jumps in Ni-nanowire systems and Coulomb blockade under elastic environment in carbon nanotube/single junction systems Macroscopic quantum coherence and computation Vol.Plenum book series,pp.427-442 (Collaboration) 2000/06
93.	Article	Coulomb blockade in a single tunnel junction directly connected to a multiwalled Carbon nanotube Appl.Phys.Lett. 77,pp.2891 (Collaboration) 2000
94.	Book	Coulomb blockade in single tunnel junction connected to nanowire and Carbon nanotube: Can mutual Coulomb interaction and weak localization play the role of high impedance environment?” Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics C-559,pp.145-160 (Collaboration) 2000
95.	Article	Coulomb bloclade with mutual Coulomb interaction in external environment in an array of single tunnel junction/nanowire Phys.Rev.B 62,pp.8420 (Collaboration) 2000
96.	Article	Influence of phase fluctuation in external environment on Coulomb blockade in an array system of single tunnel junctions/Ni-nanowires Appl.Phys.Lett 76,pp.1698 (Collaboration) 2000
97.	Article	Coulomb blockade depending on mutual coulomb interaction in nanowire directly connected to single nano-tunnel junction Electron Transport in Mesoscopic System pp.211 (Collaboration) 1999
98.	Article	Coulomb Blockade in Nano-Junction Array Fabricated Dy Non-lithographic Method Solid State Electronics pp.1257 (Collaboration) 1998
99.	Article	Coulomb Stair-case and Anomalous Conductance Quantization in Quantum-wire/junction Array Prepared into Nano-porous Alumina Films Formation, Physics, and Device Application of Quantum Dot Structures pp.136 (Collaboration) 1998
100.	Article	Non-lithographic Nano-wire Tunnel Device:Fabrication,Zero-bias anomalies,and Coulomb Blockade Phys.l Rev. B pp.13550 (Collaboration) 1998
101.	Article	Coulomb Blockade in Nano-Junction Array Fabricated by Nonlithographic Method Nano-physics and Electronics (Collaboration) 1997
102.	Article	Coulomb Blockade in Nano-Junction Array Prepared into Porous Alumina Film Template Atomically Controlled Surfaces and Interfaces pp.351 (Collaboration) 1997
103.	Article	Resistivity Measurements of Nano-Wires Fabricated by Electrochemical Depositions Electrochemical Society Journal pp.530 (Collaboration) 1997
104.	Article	Substrate Related Kink Effects with a Strong Light Sensitivity in AlGaAs/InGaAs PHEMT IEEE Electron Devices pp.25 (Collaboration) 1997
105.	Article	Nonlithographic Nanowire Arrays:Fabrication,Physics,and Device Applications IEEE Electron Devices(Special Issue on Present and Future Trends in Device Science and Technolgy) pp.1646 (Collaboration) 1996
106.	Book	Nonlithographic Fabrication and Physics of Nanowire and Nanodot Array Devices: - Present and Future Future Trends in Microelectronics: Reflections on the Road to Nanotechnology E-323,pp.171 (Collaboration) 1996
107.	Article	Gate Pulse Frequency-dependent Kink Effect in GaAs Metal-semiconductor Field-effect-transistors with a Low-temperature-grown Buffer Layer Journal of Applied Physics pp.6839 (Collaboration) 1995
108.	Article	Impact Ionization in GaAs Metal-semiconducor Field effect-transistors with a Lightly Doped Drain Structure and an Al_0.2Ga_0.8As/GaAs Heterobuffer Layer Journal of Applied Physics pp.3913 (Collaboration) 1995
109.	Article	Periodic Conductance Oscillations at Room Temperature in Novel Metal-nanotip/Insulator/Semiconductor Anti-dot Arrays Semiconductor Device Research Symposium pp.303 (Collaboration) 1995
110.	Article	Kink Effect Related to Self-side-gating Effect in GaAs MESFET's IEEE Electron Devices pp.1873 (Collaboration) 1994
111.	Article	Photoemissions Related to the Kink Effect in GaAs Metal-semiconducor Field-effect-transistors with an Al_0.2Ga_0.8As/GaAs Heterobuffer Layer Applied Physics Letter pp.648 (Collaboration) 1993
112.	Article	Elimination of the Kink Effect in GaAs Metal-semiconductor Field-effect Transistors by Utilizing a Low-temperature-grown Buffer Layer Applied Physics Letter pp.928 (Collaboration) 1992
Display 5 items
Display all(112)

■ Lecturer and lecture

1.	2021/11/18	Laser-beam derived atomically thin nanostructures; 2D Topological Insulators and 1D Schottky junctions (Rome, Italy)
2.	2021/08	Quantum spin Hall phases in atomically thin materials (Paris)
3.	2021/04	Quantum spin Hall phases in 2D atomocally thin layers (Turkey)
4.	2021/03	Laser-beam derived topological insulating states on atom-thin semiconductor MoS2
5.	2021/03	Laser-beam derived topological insulating phases on atom-thin semiconductors
6.	2020/01	Creation of topological phases on graphene and few-layer MoS2 (Tokyo)
7.	2019/08	Superconductivity in ensemble of boron-doped carbon nanotubes (Turkey)
8.	2019/08	Topological phases in atom-thin layers; Graphene and MoS2 (Seoul, Korea)
9.	2018/12	Topological phases in atom-thin layers and novel spin phenomena (Los Angeles, USA)
10.	2018/04	Spin-orbit interaction and topological phases in atom-thin materials
11.	2018/04	Topological phases in atom-thin layers (Turkey)
12.	2017/10	Magnetisms and spintronics in various atom-thin layers (London)
13.	2017/10	Magnetisms, spintronics, and topological phases in atom-thin layers (Manchester)
14.	2017/08	Electronic and spintronic behaviors of graphene and other 2D atom-thin layers (Los Angeles)
15.	2017/07	Spin-orbit interaction in graphene (Russia)
16.	2017/03	Spin protection by spin-orbit interaction in lightly hydrogenated graphene (Singapore)
17.	2016/11	Recent advancement of 2D atom-thin layers (Singapore)
18.	2016/10	Physics and applications of novel 2D atom-thin layers
19.	2016/10	Physics and applications of novel 2D atom-thin layers
20.	2016/09	Electronic and magnetic behaviors of 2D atom-thin layers: Graphene, black phosphorus, hexagonal boron-nitride, and MoS2 (Turkey)
21.	2016/09	Magnetic and spintronic behaviors of 2D atom-thin layers: Graphene, few-layer black phosphorus, and hexagonal boron-nitride (Turkey)
22.	2016/06	Recent advancement of black phosphorus, MoS2, and graphene spintronics and magnetism” (Chongqing, China)
23.	2016/04	Spintronics and superconductivity in few-layer black phosphorus and graphene (Turkey)
24.	2015/11	Black phosphorus edge spins, MoS2-atomically thin Schottky junction, and graphene spintronics (Qingdao, China)
25.	2015/10	Recent advancement of Graphene and 2D materials; Black phosphorus, MoS2, and graphene spintronics (Montreal, Canada)
26.	2015/09	Rare-metal free magnet and spin devices in graphene and black phosphorus nanomeshes (San Sebastian, Spain)
27.	2015/06	Graphene spintronics (Boston, USA)
28.	2015/04	Graphene spintronics and magnetism (Dubai, UAE)
29.	2014/09	Graphene and graphene nanomesh spintronics (Dublin, Ireland)
30.	2014/07	Graphene spintronics as topological insulator (Gothenburg, Sweden)
31.	2014/07	Self-assembled graphene nanomesh spintronics and magnetism (Marseille, France)
32.	2014/04	Topological insulator, spintronics, and magnetism in graphenes (Antalya, Turkey)
33.	2013/12	Graphene spintronics and magnetism (Las Vegas, USA)
34.	2013/10	Spin-based phenomena in graphenes (China)
35.	2013/09	Graphene spintronic (Istanbul, Turkey)
36.	2013/08	Spintronics, magnetism, and superconductivity in graphenes and carbon nanotubes (London, UK)
37.	2013/07	Graphene spintronics on graphene edges (St.Petersberg, Russia)
38.	2013/07	Research of high-Tc superconductivity in carbon nanotubes (Espoo, Finland)
39.	2012/10	Graphene magnets and spintronics arising from graphene edges (Szedo, Hungary)
40.	2012/09	Superconductivity and spintronics in nano-carbon materials (Paris, France)
41.	2012/08	Graphene edges: Physics and applications (Shanghai , China)
42.	2012/07	Magnetism and spintronics arising from graphene edges (Sydney, Australia)
43.	2012/06	Spintronics in graphene edges (Beijing, China)
44.	2012/04	Magnetism and spintronics arising from graphene edges (Istanbul, Turkey)
45.	2012/03	Edge-related magnetism and spintronics in graphenes (Kirchberg, Austria)
46.	2012/02	Spintronics and magnetism using graphene edge spins (Goa, India)
47.	2011/10	Large intrinsic band gaps and ferromagnetism derived from edge states: Graphene Nanoribbons and Antidot-lattice Graphenes (Dalian, China)
48.	2011/10	Physics and application of graphene edges: Nanoribbons and Nanopore arrays (China)
49.	2011/09	Physics and application of graphene edges: Graphene nanoribbons and Graphene nanopore arrays” (Beijing, China)
50.	2011/07	Physics of graphene edges and its application (Lancaster, UK)
51.	2011/06	Edge-state-related electron-spin transport and magnetism in graphene (Alvor, Portugal)
52.	2011/04	Large intrinsic band gaps, ferromagnetism, and anomalous magnetoresistance oscillations derived from edge states: Nanoribbons and Antidot-lattice Graphenes (Innsbruck, Austria)
53.	2011/02	Large intrinsic band gaps, ferromagnetism, and anomalous magnetoresistance oscillations derived from edge states: Nanoribbons and Antidot-lattice Graphenes”, (Lancaster, UK)
54.	2011/01	Superconductivity in carbon nanotubes and band gap engineering in graphene nanoribbons (Kerala, India)
55.	2010/09	Electronic transport and quantum phenomena in graphenes (Boston, USA)
56.	2010/09	Quantum phenomena in carbon nanotube and graphene; superconductivity and low-dimensional electron correlation
57.	2010/08	Superconductivity in carbon nanotubes; Toward high Tc (Tsukuba, Japan)
58.	2010/08	Superconductivity in carbon nanotubes” (Belgium)
59.	2010/07	Superconductivity in carbon nanotubes and its application to novel electronic devices (Portugal)
60.	2010/07	Superconductivity in carbon nanotubes; 1D electron correlation (Lausanne, Switzerland)
61.	2010/04	Superconductivity in carbon nanotube (Antalya, Turkey)
62.	2009/07	Superconductivity in boron-doped carbon nanotubes” (Beijing, China)
63.	2009/04	Quantum phenomena in double-walled carbon nanotubes and carbon nano-peapods (India)
64.	2009/03	Superconductivity in boron-doped carbon nanotubes (Tsukuba, Japan)
65.	2008/09	Superconductivity in boron-doped carbon nanotubes and its application to quantum computation (Boston , USA)
66.	2008/09	Superconductivity in boron-doped single-walled carbon nanotubes (Boston, USA)
67.	2008/08	Superconductivity in boron-doped carbon nanotubes (Antalya, Turkey)
68.	2008/07	Recent progress of study of carbon-nanotube superconductivity (Rome, Italy)
69.	2008/07	Superconductivity in thin films of boron-doped nanotubes (Orsay, France)
70.	2008/02	Recent progress of study of carbon-nanotube superconductivity (Nagoya, Japan)
71.	2008/02	Superconductivity in carbon nanotubes (South Carolina, USA)
72.	2007/09	Carbon nanotubes; High-Tc Superconductivity and one-dimensional electron correlation (Porto, Portgal)
73.	2007/04	High-Tc superconductivity in self-assembled carbon nanotubes in nano-porous alumina templates and its application (Uta, USA)
74.	2006/09	High-Tc superconductivity in entirely end-bonded multi-walled carbon nanotubes (Grenoble, France)
75.	2006/09	High-Tc Superconductivity in Multi-walled Carbon Nanotubes (Roppongi, Japan)
76.	2006/09	Superconductivity in carbon nanotubes (Basel, Swiss)
77.	2006/08	Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Chicago, USA)
78.	2006/07	Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Dresden)
79.	2006/06	High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Nagano, Japan)
80.	2006/03	High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes” (Kirchberg, Austria)
81.	2005/12	High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Paris, France)
82.	2005/12	High-Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Paris, France)
83.	2005/12	Panel Session: CARBON NANOTUBES: APPLICATION DRIVERS, PROCESSING METHODS AND FABRICATION CAPABILITIES (Paris, France)
84.	2005/09	Electron-electron interaction in carbon nanotubes; Superconductivity and Tomonaga-Luttinger liquid (Boston)
85.	2005/09	High-Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes (Czech)
86.	2005/03	Possibility of quantum computation in carbon nanotubes,-Cooper pairs, Tomonaga-Luttinger liquids, and spin entanglement-”, (Greece)
87.	2005/03	Quantum spin entanglers using Cooper pairs and Tomonaga-Luttinger liquid in Carbon nanotubes
88.	2004/09	Correlation of Luttinger liquid, superconductivity, and spin entanglement in carbon nanotubes (London)
89.	2004/09	Correlation of Luttinger liquid, superconductivity, and spin entanglement in carbon nanotubes (Poland)
90.	2004/06	Nano-science in carbon nanotubes; Suppression of Cooper-pair breaking, coexistence of Cooper pair with Luttinger liquid, and atomic-like behaviors
91.	2004/03	Unique behaviors of Cooper pairs in carbon nanotubes within proximity-induced superconductivity (Toronto, Canada)
92.	2003/09	Supercurrent through quasi-diffusive multi-walled carbon nanotubes; strong spin entanglement (Delft, Netherland)
93.	2003/09	Supercurrent through quasi-diffusive multi-walled carbon nanotubes; strong spin entanglement and quantum computation (Paris)
94.	2003/08	Injection of Cooper pairs into diffusive niobium/multi-walled carbon nanotube/ aluminum junctions with phase memory (San Francisco, USA)
95.	2002/12	Proximity-induced superconductivity and its re-entrance effect in niobium/multi-walled nanotube junctions (Brazil)
96.	2002/11	Spintronics and superconductivity in multi-walled carbon nanotubes (Dresden)
97.	2002/08	Superconductivity and Spintronics in carbon nanotubes (New York)
98.	2002/07	Superconducting proximity effect and spintronics in multi-walled carbon nanotubes (San Diego)
99.	2002/06	Proximity-induced Superconductivity and spintronics in multi-walled carbon nanotubes (Italy)
100.	2002/03	Quantum-mesoscopic phenomena in carbon nanotubes; spintronics and superconductivity (Boston, USA)
101.	2001/08	Impact of Self-organized Nanostructures, Nanoporous Alumina Membranes, on Nano-physics (Spain)
102.	2000/06	Abrupt magenetoresistance jumps in Ni-nanowire systems and Coulomb blockade under elastic environment in Carbon nanotube/single junction systems (Napoli, Italy)
103.	1999/08	“Coulomb blockade in single tunnel junction connected to nanowire and Carbon nanotube: Can mutual Coulomb interaction and weak localization play the role of high impedance environment? (Turkey)
Display 5 items
Display all(103)