岡田 晋(オカダ ススム)
- 論文
- Polarity control of h-BN nanoribbon edges by strain and edge termination
Yamanaka Ayaka; Okada Susumu
Physical chemistry chemical physics : PCCP/19(13)/pp.9113-9117, 2017-03 - Effect of charged metal nanoparticles on carrier injection in graphene by an external electric field
Matsubara Manaho; Okada Susumu
APPLIED PHYSICS EXPRESS/10(2)/p.25101, 2017-01 - Electronic structure of CNT thin film swith nanointerfaces under an electronic field
Kochi Taketo; Okada Susumu
2016 COMPOUND SEMICONDUCTOR WEEK (CSW) INCLUDES 28TH INTERNATIONAL CONFERENCE ON INDIUM PHOSPHIDE & RELATED MATERIALS (IPRM) & 43RD INTERNATIONAL SYMPOSIUM ON COMPOUND SEMICONDUCTORS (ISCS), 2016 - Geometric and Electronic Structures of GaN Sheet
Gao Yanlin; Okada Susumu
2016 COMPOUND SEMICONDUCTOR WEEK (CSW) INCLUDES 28TH INTERNATIONAL CONFERENCE ON INDIUM PHOSPHIDE & RELATED MATERIALS (IPRM) & 43RD INTERNATIONAL SYMPOSIUM ON COMPOUND SEMICONDUCTORS (ISCS), 2016 - Electronic transport properties of graphene channel with metal electrodes or insulating substrates in 10 nm-scale devices
Jippo H.; Ozaki T.; Okada S.; Ohfuchi M.
JOURNAL OF APPLIED PHYSICS/120(15), 2016-10 - Electronic properties of pentaorgano[60]fullerenes under an external electric field
Furutani Sho; Okada Susumu
APPLIED PHYSICS EXPRESS/9(11)/p.115103, 2016-11 - Na-ion diffusion in a NASICON-type solid electrolyte: a density functional study
Kieu My Bui; Van An Dinh; Okada Susumu; Ohno Takahisa
PHYSICAL CHEMISTRY CHEMICAL PHYSICS/18(39)/pp.27226-27231, 2016-10 - Coexistence of Dirac cones and Kagome flat bands in a porous graphene
Maruyama Mina; Nguyen Thanh Cuong; Okada Susumu
CARBON/109/pp.755-763, 2016-11 - Electronic structure modulation of graphene edges by chemical functionalization
Taira Remi; Yamanaka Ayaka; Okada Susumu
APPLIED PHYSICS EXPRESS/9(11)/p.115102, 2016-11 - Electrostatic properties of fullerenes under an external electric field: First-principles calculations of energetics for all IPR isomers from C-60 to C-78
Sorimachi Jun-ya; Okada Susumu
CHEMICAL PHYSICS LETTERS/659/pp.1-5, 2016-08 - Enhanced thermoelectric power in two-dimensional transition metal dichalcogenide monolayers
Pu Jiang; Kanahashi Kaito; Nguyen Thanh Cuong; Chen C...
PHYSICAL REVIEW B/94(1), 2016-07 - Origin of the high electrical conductivity of copper with graphene or boron-nitride coating layer
Nguyen Thanh Cuong; Okada Susumu
日本物理学会講演概要集/71(1)/p.1303, 2016-03 - 欠陥を有するグラフェン薄膜の電子構造
岸本 健; 岡田 晋
日本物理学会講演概要集/71(1)/p.1367, 2016-03 - フラーレンの一様外部電場に対する応答
反町 純也; 岡田 晋
日本物理学会講演概要集/71(1)/p.1813, 2016-03 - π共役高スピン分子による二次元ネットワーク物質の磁性状態
丸山 実那; 岡田 晋
日本物理学会講演概要集/71(1)/p.1879, 2016-03 - 水素終端によるh-BNナノリボンの極性変調
山中 綾香; 岡田 晋
日本物理学会講演概要集/71(1)/p.1880, 2016-03 - Siに埋め込まれたCNTのエネルギー論と電子構造
古地 健人; 岡田 晋
日本物理学会講演概要集/71(1)/p.1931, 2016-03 - 変形したCNTの電界による電荷蓄積
長谷川 明子; 岡田 晋
日本物理学会講演概要集/71(1)/p.1933, 2016-03 - Effect of an intersection of carbon nanotubes on the carrier accumulation under an external electric field
Kochi Taketo; Okada Susumu
Appl. Phys. Express/9(8)/p.85103, 2016-07 - Polar properties of a hexagonally bonded GaN sheet under biaxial compression
Gao Yanlin; Yayama Tomoe; Okada Susumu
Appl. Phys. Express/9(9)/p.95201, 2016-08 - Energetics and Electronic Structure of h-BN Nanoflakes
Yamanaka Ayaka; Okada Susumu
SCIENTIFIC REPORTS/6, 2016-08 - Ambipolar transistors based on random networks of WS2 nanotubes
Sugahara Mitsunari; Kawai Hideki; Yomogida Yohei; Mani...
APPLIED PHYSICS EXPRESS/9(7), 2016-07 - Highly Uniform Bilayer Graphene on Epitaxial Cu-Ni(111) Alloy
Takesaki Yuichiro; Kawahara Kenji; Hibino Hiroki; Okad...
CHEMISTRY OF MATERIALS/28(13)/pp.4583-4592, 2016-07 - Theoretical Investigation on Electronic and Magnetic Structures of FeRh
Takahashi Hidekazu; Araidai Masaaki; Okada Susumu; Shiraishi...
Journal of the Magnetics Society of Japan/40(4)/pp.77-80, 2016 - Geometric and electronic structures of corannulene polymers: Ultra narrow graphene ribbons with corrugation and topological defects
Narita Kohei; Okada Susumu
CHEMICAL PHYSICS LETTERS/650/pp.76-81, 2016-04 - さらに表示...
- Polarity control of h-BN nanoribbon edges by strain and edge termination