1.
|
2021/11
|
Laser-beam derived atomically thin nanostructures; 2D Topological Insulators and 1D Schottky junctions(Rome, Italy)
|
2.
|
2021/10
|
Creation of atomically thin topological insulators -Bi2Te3-nanoparticle decorated graphene and laser-beam irradiated few-layer MoS2-(Turkey)
|
3.
|
2021/08
|
Quantum spin Hall phases in atomically thin materials(Paris)
|
4.
|
2021/04
|
Quantum spin Hall phases in 2D atomocally thin layers(Turkey)
|
5.
|
2021/04
|
Laser-derived topological insulating states on atomically thin layers(Prague, CzechRepublic)
|
6.
|
2021/03
|
Laser-beam derived topological insulating states on atom-thin semiconductor MoS2
|
7.
|
2021/03
|
Laser-beam derived topological insulating phases on atom-thin semiconductors
|
8.
|
2020/01
|
Creation of topological phases on graphene and few-layer MoS2(Tokyo)
|
9.
|
2019/08
|
Superconductivity in ensemble of boron-doped carbon nanotubes(Turkey)
|
10.
|
2019/08
|
Topological phases in atom-thin layers; Graphene and MoS2(Seoul, Korea)
|
11.
|
2018/12
|
Topological phases in atom-thin layers and novel spin phenomena(Los Angeles, USA)
|
12.
|
2018/04
|
Spin-orbit interaction and topological phases in atom-thin materials
|
13.
|
2018/04
|
Topological phases in atom-thin layers(Turkey)
|
14.
|
2017/10
|
Magnetisms and spintronics in various atom-thin layers(London)
|
15.
|
2017/10
|
Magnetisms, spintronics, and topological phases in atom-thin layers(Manchester)
|
16.
|
2017/08
|
Electronic and spintronic behaviors of graphene and other 2D atom-thin layers(Los Angeles)
|
17.
|
2017/07
|
Spin-orbit interaction in graphene(Russia)
|
18.
|
2017/03
|
Spin protection by spin-orbit interaction in lightly hydrogenated graphene(Singapore)
|
19.
|
2016/11
|
Recent advancement of 2D atom-thin layers(Singapore)
|
20.
|
2016/10
|
Magnetisms and spintronics arising from edges of 2D atom-thin layer(Chicago, USA)
|
21.
|
2016/10
|
Physics and applications of novel 2D atom-thin layers
|
22.
|
2016/10
|
Physics and applications of novel 2D atom-thin layers
|
23.
|
2016/09
|
Electronic and magnetic behaviors of 2D atom-thin layers: Graphene, black phosphorus, hexagonal boron-nitride, and MoS2(Turkey)
|
24.
|
2016/09
|
Magnetic and spintronic behaviors of 2D atom-thin layers: Graphene, few-layer black phosphorus, and hexagonal boron-nitride(Turkey)
|
25.
|
2016/06
|
Recent advancement of black phosphorus, MoS2, and graphene spintronics and magnetism”(Chongqing, China)
|
26.
|
2016/04
|
Spintronics and superconductivity in few-layer black phosphorus and graphene(Turkey)
|
27.
|
2015/11
|
Black phosphorus edge spins, MoS2-atomically thin Schottky junction, and graphene spintronics(Qingdao, China)
|
28.
|
2015/10
|
Recent advancement of Graphene and 2D materials; Black phosphorus, MoS2, and graphene spintronics(Montreal, Canada)
|
29.
|
2015/09
|
Rare-metal free magnet and spin devices in graphene and black phosphorus nanomeshes(San Sebastian, Spain)
|
30.
|
2015/06
|
Graphene spintronics(Boston, USA)
|
31.
|
2015/04
|
Graphene spintronics and magnetism(Dubai, UAE)
|
32.
|
2014/09
|
Graphene and graphene nanomesh spintronics(Dublin, Ireland)
|
33.
|
2014/07
|
Graphene spintronics as topological insulator(Gothenburg, Sweden)
|
34.
|
2014/07
|
Self-assembled graphene nanomesh spintronics and magnetism(Marseille, France)
|
35.
|
2014/04
|
Topological insulator, spintronics, and magnetism in graphenes(Antalya, Turkey)
|
36.
|
2013/12
|
Graphene spintronics and magnetism(Las Vegas, USA)
|
37.
|
2013/10
|
Spin-based phenomena in graphenes(China)
|
38.
|
2013/09
|
Graphene spintronic(Istanbul, Turkey)
|
39.
|
2013/08
|
Spintronics, magnetism, and superconductivity in graphenes and carbon nanotubes(London, UK)
|
40.
|
2013/07
|
Graphene spintronics on graphene edges(St.Petersberg, Russia)
|
41.
|
2013/07
|
Research of high-Tc superconductivity in carbon nanotubes(Espoo, Finland)
|
42.
|
2012/10
|
Graphene magnets and spintronics arising from graphene edges(Szedo, Hungary)
|
43.
|
2012/09
|
Superconductivity and spintronics in nano-carbon materials(Paris, France)
|
44.
|
2012/08
|
Graphene edges: Physics and applications(Shanghai , China)
|
45.
|
2012/07
|
Magnetism and spintronics arising from graphene edges(Sydney, Australia)
|
46.
|
2012/06
|
Spintronics in graphene edges(Beijing, China)
|
47.
|
2012/04
|
Magnetism and spintronics arising from graphene edges(Istanbul, Turkey)
|
48.
|
2012/03
|
Edge-related magnetism and spintronics in graphenes(Kirchberg, Austria)
|
49.
|
2012/02
|
Spintronics and magnetism using graphene edge spins(Goa, India)
|
50.
|
2011/10
|
Large intrinsic band gaps and ferromagnetism derived from edge states: Graphene Nanoribbons and Antidot-lattice Graphenes(Dalian, China)
|
51.
|
2011/10
|
Physics and application of graphene edges: Nanoribbons and Nanopore arrays(China)
|
52.
|
2011/09
|
Physics and application of graphene edges: Graphene nanoribbons and Graphene nanopore arrays”(Beijing, China)
|
53.
|
2011/07
|
Physics of graphene edges and its application(Lancaster, UK)
|
54.
|
2011/06
|
Edge-state-related electron-spin transport and magnetism in graphene(Alvor, Portugal)
|
55.
|
2011/04
|
Large intrinsic band gaps, ferromagnetism, and anomalous magnetoresistance oscillations derived from edge states: Nanoribbons and Antidot-lattice Graphenes(Innsbruck, Austria)
|
56.
|
2011/02
|
Large intrinsic band gaps, ferromagnetism, and anomalous magnetoresistance oscillations derived from edge states: Nanoribbons and Antidot-lattice Graphenes”,(Lancaster, UK)
|
57.
|
2011/01
|
Superconductivity in carbon nanotubes and band gap engineering in graphene nanoribbons(Kerala, India)
|
58.
|
2010/09
|
Electronic transport and quantum phenomena in graphenes(Boston, USA)
|
59.
|
2010/09
|
Quantum phenomena in carbon nanotube and graphene; superconductivity and low-dimensional electron correlation
|
60.
|
2010/08
|
Superconductivity in carbon nanotubes; Toward high Tc(Tsukuba, Japan)
|
61.
|
2010/08
|
Superconductivity in carbon nanotubes”(Belgium)
|
62.
|
2010/07
|
Superconductivity in carbon nanotubes and its application to novel electronic devices(Portugal)
|
63.
|
2010/07
|
Superconductivity in carbon nanotubes; 1D electron correlation(Lausanne, Switzerland)
|
64.
|
2010/04
|
Superconductivity in carbon nanotube(Antalya, Turkey)
|
65.
|
2009/07
|
Superconductivity in boron-doped carbon nanotubes”(Beijing, China)
|
66.
|
2009/04
|
Quantum phenomena in double-walled carbon nanotubes and carbon nano-peapods(India)
|
67.
|
2009/03
|
Superconductivity in boron-doped carbon nanotubes(Tsukuba, Japan)
|
68.
|
2008/09
|
Superconductivity in boron-doped carbon nanotubes and its application to quantum computation(Boston , USA)
|
69.
|
2008/09
|
Superconductivity in boron-doped single-walled carbon nanotubes(Boston, USA)
|
70.
|
2008/08
|
Superconductivity in boron-doped carbon nanotubes(Antalya, Turkey)
|
71.
|
2008/07
|
Recent progress of study of carbon-nanotube superconductivity(Rome, Italy)
|
72.
|
2008/07
|
Superconductivity in thin films of boron-doped nanotubes(Orsay, France)
|
73.
|
2008/02
|
Recent progress of study of carbon-nanotube superconductivity(Nagoya, Japan)
|
74.
|
2008/02
|
Superconductivity in carbon nanotubes(South Carolina, USA)
|
75.
|
2007/09
|
Carbon nanotubes; High-Tc Superconductivity and one-dimensional electron correlation(Porto, Portgal)
|
76.
|
2007/04
|
High-Tc superconductivity in self-assembled carbon nanotubes in nano-porous alumina templates and its application(Uta, USA)
|
77.
|
2006/09
|
High-Tc superconductivity in entirely end-bonded multi-walled carbon nanotubes(Grenoble, France)
|
78.
|
2006/09
|
High-Tc Superconductivity in Multi-walled Carbon Nanotubes(Roppongi, Japan)
|
79.
|
2006/09
|
Superconductivity in carbon nanotubes(Basel, Swiss)
|
80.
|
2006/08
|
Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Chicago, USA)
|
81.
|
2006/07
|
Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Dresden)
|
82.
|
2006/06
|
High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Nagano, Japan)
|
83.
|
2006/03
|
High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes”(Kirchberg, Austria)
|
84.
|
2005/12
|
High - Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Paris, France)
|
85.
|
2005/12
|
High-Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Paris, France)
|
86.
|
2005/12
|
Panel Session: CARBON NANOTUBES: APPLICATION DRIVERS, PROCESSING METHODS AND FABRICATION CAPABILITIES(Paris, France)
|
87.
|
2005/09
|
Electron-electron interaction in carbon nanotubes; Superconductivity and Tomonaga-Luttinger liquid(Boston)
|
88.
|
2005/09
|
High-Tc Superconductivity in entirely end-bonded multi-walled carbon nanotubes(Czech)
|
89.
|
2005/03
|
Possibility of quantum computation in carbon nanotubes,-Cooper pairs, Tomonaga-Luttinger liquids, and spin entanglement-”,(Greece)
|
90.
|
2005/03
|
Quantum spin entanglers using Cooper pairs and Tomonaga-Luttinger liquid in Carbon nanotubes
|
91.
|
2004/09
|
Correlation of Luttinger liquid, superconductivity, and spin entanglement in carbon nanotubes(London)
|
92.
|
2004/09
|
Correlation of Luttinger liquid, superconductivity, and spin entanglement in carbon nanotubes(Poland)
|
93.
|
2004/06
|
Nano-science in carbon nanotubes; Suppression of Cooper-pair breaking, coexistence of Cooper pair with Luttinger liquid, and atomic-like behaviors
|
94.
|
2004/03
|
Unique behaviors of Cooper pairs in carbon nanotubes within proximity-induced superconductivity(Toronto, Canada)
|
95.
|
2003/09
|
Supercurrent through quasi-diffusive multi-walled carbon nanotubes; strong spin entanglement(Delft, Netherland)
|
96.
|
2003/09
|
Supercurrent through quasi-diffusive multi-walled carbon nanotubes; strong spin entanglement and quantum computation(Paris)
|
97.
|
2003/08
|
Injection of Cooper pairs into diffusive niobium/multi-walled carbon nanotube/ aluminum junctions with phase memory(San Francisco, USA)
|
98.
|
2002/12
|
Proximity-induced superconductivity and its re-entrance effect in niobium/multi-walled nanotube junctions(Brazil)
|
99.
|
2002/11
|
Spintronics and superconductivity in multi-walled carbon nanotubes(Dresden)
|
100.
|
2002/08
|
Superconductivity and Spintronics in carbon nanotubes(New York)
|
101.
|
2002/07
|
Superconducting proximity effect and spintronics in multi-walled carbon nanotubes(San Diego)
|
102.
|
2002/06
|
Proximity-induced Superconductivity and spintronics in multi-walled carbon nanotubes(Italy)
|
103.
|
2002/03
|
Quantum-mesoscopic phenomena in carbon nanotubes; spintronics and superconductivity(Boston, USA)
|
104.
|
2001/08
|
Impact of Self-organized Nanostructures, Nanoporous Alumina Membranes, on Nano-physics(Spain)
|
105.
|
2001/08
|
Impact of Self-organized Nanostructures, Nanoporous Alumina Membranes, on Nano-physics and -electoronics
|
106.
|
2000/06
|
Abrupt magenetoresistance jumps in Ni-nanowire systems and Coulomb blockade under elastic environment in Carbon nanotube/single junction systems(Napoli, Italy)
|
107.
|
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)
|
108.
|
2020/02
|
原子一個の薄さのトポロジカル絶縁体創製(京都)
|
109.
|
2019/03
|
原子層物質のトポロジカル絶縁体転移実現(九州大学)
|
110.
|
2019/01
|
原子層物質のトポロジカル絶縁体転移と新奇スピン物性
|
111.
|
2018/12
|
原子層物質のトポロジカル相転移と超低消費電力スピン素子への応用(東京工業大学)
|
112.
|
2017/04
|
グラフェンと二次元原子層物質の新奇スピン物性(東京大学柏の葉キャンパス)
|
113.
|
2017/04
|
微量水素装飾したグラフェンのスピン軌道相互作用と位相破壊抑制(関西大学)
|
114.
|
2013/10
|
二次元単原子層膜研究開発の現状と将来(市ヶ谷)
|
115.
|
2012/05
|
グラフェンの物性と機能素子応用:グラフェン磁石と次世代スピン素子(五反田)
|
116.
|
2012/02
|
グラフェンエッジの物理:ナノリボンとナノメッシュ(京都)
|
117.
|
2011/12
|
グラフェンエッジの物理と応用:エッジ偏極スピンと室温強磁性
|
118.
|
2011/09
|
グラフェンナノリボンとアンチドット格子グラフェン:エッジと電子物性(富山大学)
|
119.
|
2011/09
|
ナノカーボンの基礎と応用:カーボンナノチューブとグラフェン(筑波)
|
120.
|
2011/05
|
グラフェンエッジの物理とスピン素子応用:ナノリボンとアンチドット格子(名古屋)
|
121.
|
2011/02
|
グラフェンの電子素子応用:ナノリボンとアンチドット格子(東北大学)
|
122.
|
2011/01
|
グラフェンのエッジ状態と電子相関:ナノリボンとアンチドット格子グラフェン(東京大学)
|
123.
|
2010/11
|
炭素系新超伝導体研究の現状(東京大学)
|
124.
|
2010/09
|
カーボンナノチューブ超伝導:「室温超伝導に向けて」(苫小牧)
|
125.
|
2010/07
|
ナノ炭素材料の基礎と応用:カーボンナノチューブ、グラフェン(青山学院大学)
|
126.
|
2010/03
|
ホウ素ドープカーボンナノチューブの超伝導(京阪奈国際高等研究所)
|
127.
|
2009/10
|
ナノ細孔グラフェンの創成、電子状態、物性(東京大学柏の葉キャンパス)
|
128.
|
2009/09
|
ナノ炭素物質が拓く未来
|
129.
|
2009/09
|
ボロンドープカーボンナノチューブにおける超伝導(熊本大学)
|
130.
|
2009/05
|
カーボンナノチューブの可能性:超伝導、一次元電子相関、単一電子制御
|
131.
|
2009/05
|
キャリアドープカーボンナノチューブにおける超伝導
|
132.
|
2009/05
|
次世代カーボンナノチューブにおける量子効果とその機能素子応用
|
133.
|
2008/11
|
カーボンナノチューブにおける超伝導:基礎と応用(東京)
|
134.
|
2008/07
|
カーボンナノチューブの基礎と応用:単一電子注入、電子相関、超伝導
|
135.
|
2008/05
|
カーボンナノチューブ超伝導の進展と期待:ホウ素注入
|
136.
|
2007/06
|
カーボンナノチューブにおける超伝導の発見とその量子素子応用
|
137.
|
2007/06
|
カーボンナノチューブの電子輸送特性とそのナノ電子素子応用(大井町)
|
138.
|
2006/10
|
カーボンナノチューブにおける超伝導(東京)
|
139.
|
2006/09
|
陽極酸化の1次元チャンネルを鋳型にしたナノチューブ生成と超伝導(千葉大学)
|
140.
|
2006/05
|
カーボンナノチューブにおける超伝導の発見
|
141.
|
2006/04
|
カーボンナノチューブにおける超伝導の発見とそのスピン量子エンタングラーへの応用
|
142.
|
2006/02
|
カーボンナノチューブ超伝導とホウ素注入(東京)
|
143.
|
2005/11
|
カーボンナノチューブにおける超伝導の発見
|
144.
|
2005/09
|
カーボンナノチューブにおける新奇量子物性現象:超伝導と一次元物性
|
145.
|
2005/03
|
カーボンナノチューブにおける超電導と一次元量子物性
|
146.
|
2005/02
|
カーボンナノチューブにおける朝永ラッティンジャー液体と超電導(九州大学)
|
147.
|
2004/11
|
カーボンナノチューブを用いた分子量子コンピューティングの実現 ― 超電導と朝永・ラッティンジャー液体の競合―
|
148.
|
2004/03
|
多層ナノチューブにおける近接効果超伝導と量子情報通信への展開(青山学院大学)
|
149.
|
2003/12
|
多層ナノチューブにおける近接場超伝導とそのスピン量子素子応用の提案(青山学院大学青山キャンパ)
|
150.
|
2003/10
|
多層ナノチューブにおける近接効果超伝導と二層チューブにおける量子ドット物性(埼玉)
|
151.
|
2003/06
|
カーボンナノチューブにおける量子・メゾスコピック現象 スピントロニクスと近接効果超伝導
|
152.
|
2003/06
|
カーボンナノチューブの超伝導は本物か?(東京)
|
153.
|
2003/01
|
カーボンナノチューブのスピントロニクスと超伝導(岡崎)
|
154.
|
2002/12
|
多層カーボンナノチューブにおける近接効果超伝導とY字ナノチューブの物性(名古屋大学)
|
155.
|
2002/11
|
ナノサイエンス最前線:カーボンナノチューブの電子物性
|
156.
|
2002/10
|
ポーラスアルミナナノテクノロジー:単一電子デバイスとカーボンナノチューブ(京都大学)
|
157.
|
2002/09
|
多層カーボンナノチューブ中の超伝導とスピン量子ビットへの応用(新潟大学)
|
158.
|
2002/07
|
カーボンナノチューブの超伝導とスピンエレクトロニクス
|
5件表示
|
全件表示(158件)
|