Mitsutaka Fujita

1959 (age 39)

Niihama, Ehime Prefecture, Japan

He proposed the edge state that is unique in the graphene zigzag edges. Also, he theoretically pointed out the importance and peculiarity of nanoscale and edge shape effects in nanographene. The graphene nanoribbons was theoretically introduced by him and his research group to study the nanoscale effect of graphene. He had been an associate professor in the Tsukuba University, and died by subarachnoid hemorrhage on March 18, 1998. His posthumous name is Rikakuin-Shinju-Houkou-Koji (理覚院深珠放光居士) in Japanese. M. K. Sigrist, Electronic and magnetic properties of nanographite ribbons, R. Dresselhaus, Electronic structure of graphene tubules based on C_ {60}, R. Y. Fujita, First-principles study of edge states of H-terminated graphitic ribbons, M. T. Okazaki, Role of Hydrogen in C and Si (001) Homoepitaxy, M. K. Fujita, Soliton lattice structure of incommensurate spin-density waves: Application to Cr and Cr-rich Cr-Mn and Cr-V alloys, K. Fujita, Ab initio molecular-orbital calculation for C70 and seven isomers of C80, M. Dresselhaus, Formation of general fullerenes by their projection on a honeycomb lattice, K. Fujita, Quantum energy spectra and one-dimensional quasiperiodic systems, K. Fujita, Dimerization structures of metallic and semiconducting fullerene tubules, M., Faraday transactions, 93, 1037–1043 (1997).

Mitsutaka Fujita

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藤田光孝

physicist

Education

1920–1923

K. Nakada, M. Fujita, G. Dresselhaus, Master of Surgery Dresselhaus, Edge state in graphene ribbons: Nanometer size effect and edge shape dependence, Physical

Career

He proposed the edge state that is unique in the graphene zigzag edges. Also, he theoretically pointed out the importance and peculiarity of nanoscale and edge shape effects in nanographene. The graphene nanoribbons was theoretically introduced by him and his research group to study the nanoscale effect of graphene.

He had been an associate professor in the Tsukuba University, and died by subarachnoid hemorrhage on March 18, 1998.

His posthumous name is Rikakuin-Shinju-Houkou-Koji (理覚院深珠放光居士) in Japanese. M. K. Sigrist, Electronic and magnetic properties of nanographite ribbons, R. Dresselhaus, Electronic structure of graphene tubules based on C_ {60}, R. Y. Fujita, First-principles study of edge states of H-terminated graphitic ribbons, M. T. Okazaki, Role of Hydrogen in C and Si (001) Homoepitaxy, M. K. Fujita, Soliton lattice structure of incommensurate spin-density waves: Application to Cr and Cr-rich Cr-Mn and Cr-V alloys, K. Fujita, Ab initio molecular-orbital calculation for C70 and seven isomers of C80, M. Dresselhaus, Formation of general fullerenes by their projection on a honeycomb lattice, K. Fujita, Quantum energy spectra and one-dimensional quasiperiodic systems, K. Fujita, Dimerization structures of metallic and semiconducting fullerene tubules, M., Faraday transactions, 93, 1037–1043 (1997).

Achievements

After his death, the original paper of graphene edge state and graphene nanoribbons was awarded the Journal of Philosophical Studies Best Paper Award on March 2003 from the Physical Society of Japan. Journal of Philosophical Studies Best Paper award, Physical Society of Japan.

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Born

1959

Niihama, Ehime Prefecture, Japan
Died

1998 (aged 39)
Nationality
Japan
Ethnicity

Japanese

Education

"Kyoto University"

Awards

After his death, the original paper of graphene edge state and graphene nanoribbons was awarded the JPS Best Paper Award on March 2003 from the Physical Society of Japan. JPS Best Paper award, Physical Society of Japan

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Mitsutaka Fujita

Education

Career

Achievements

Born

Died

Nationality

Ethnicity

Education

Awards

After his death, the original paper of graphene edge state and graphene nanoribbons was awarded the JPS Best Paper Award on March 2003 from the Physical Society of Japan. JPS Best Paper award, Physical Society of Japan