Hiroshi Nishihara

Vorlage:Nihongo, geb. 21. März 1955) ist ein japanischer Chemiker und Professor für Chemie an der The University of Tokyo in Japan. Er ist Leiter des Labors für anorganische Chemie an der Universität Tokio und ist bekannt für seine Forschung zur Synthese und Elektrochemie von leitenden Koordinationspolymeren.

Er beschäftigt sich mit der Entwicklung neuer elektro- und photofunktionaler Materialien auf Basis von Übergangsmetallen und kettenartigen π-Systemen sowie mit Elektronentransfersystemen unter Ausnutzung molekularer Grenzflächen. Nishihara ist zur Zeit der Vizepräsident der Electrochemical Society of Japan und der japanische Vertreter der International Society of Electrochemistry (ISE).

Ausbildung und wissenschaftliche Karriere

1977 B.Sc. (Chemie), The University of Tokyo
1982 D.Sc. (Chemie), The University of Tokyo (Professor Yukiyoshi Sasaki)
1982-1990 wissenschaftlicher Mitarbeiter, Faculty of Science and Technology, Keio University (Professor Kunitsugu Aramaki)
1987-1989 Forschungsaufenthalt, The University of North Carolina at Chapel Hill (Professor Royce W. Murray)
1990 Dozent, Faculty of Science and Technology, Keio University
1992 außerordentlicher Professor, Faculty of Science and Technology, Keio University (Interface Chemistry)
1993-1996 Wisenschaftler, PRESTO, Japan Science and Technology Agency (Research Supervisor: Prof. K. Honda)
1996-heute Professor, Department of Chemistry, School of Science, The University of Tokyo (anorganische Chemie)

Forschungsgebiete

Koordinationschemie, Organometallchemie, Elektrochemie, Photochemie, Nanomaterialien

Ehrungen und Mitgliedschaften

1994 Young Scholar Lectureship, The Chemical Society of Japan
2003 The Chemical Society of Japan Award for Creative Work in 2002
2005 Gastdozentur an der University of Bordeaux I
2009 Professur von der University of Strasbourg
2011 Docteur Honoris Causa an der University of Bordeaux I
2012 Lehrauftrag im Rahmen der "Distinguished Lecture Series" an der Hong Kong Baptist University.
2014 Mitgliedschaft in der Royal Society of Chemistry
2014 Japan's Ministry of Education, Culture, Sports, Science and Technology (MEXT) Award for Science and Technology 2014

Übersichtsartikel

"Azo-and quinone-conjugated redox complexes—photo-and proton-coupled intramolecular reactions based on d–π interaction." Kurihara, M., & Nishihara, H., Coordination chemistry reviews, 2002, 226(1), 125-135.^[1]
"Combination of redox-and photochemistry of azo-conjugated metal complexes." Nishihara, H., Coordination chemistry reviews, 2005, 249(13), 1468-1475.^[2]
"Construction of redox-and photo-functional molecular systems on electrode surface for application to molecular devices." Nishihara, H., Kanaizuka, K., Nishimori, Y., & Yamanoi, Y., Coordination Chemistry Reviews, 2007, 251(21), 2674-2687.^[3]
"Photosynthetic hydrogen production" Allakhverdiev, S. I., Thavasi, V., Kreslavski, V. D., Zharmukhamedov, S. K., Klimov, V. V., Ramakrishna, S., Losa, D. A., Mimurod, M., Nishiharae, H., Carpentierf, R., Journal of Photochemistry and Photobiology C: Photochemistry Reviews, 2010, 11(2), 101-113.
"Arylethynylanthraquinone and Bis (arylethynyl) anthraquinone: Strong Donor-Acceptor Interaction and Proton-induced Cyclization to Form Pyrylium and Dipyrylium Salts." Sakamoto, R., Rao, K. P., & Nishihara, H., Chemistry Letters, 2011, 40(12), 1316-1326.^[4]
"Bis (terpyridine) metal complex wires: Excellent long-range electron transfer ability and controllable intrawire redox conduction on silicon electrode." Sakamoto, R., Katagiri, S., Maeda, H., & Nishihara, H., Coordination Chemistry Reviews, 2013, 257(9), 1493-1506.
"Coordination Programming-A Concept for the Creation of Multifunctional Molecular Systems" Nishihara, H., Chem. Lett, 2014, 43, 388-395.
"π-Conjugated bis (terpyridine) metal complex molecular wires." Sakamoto, R., Wu, K. H., Matsuoka, R., Maeda, H., & Nishihara, H., Chemical Society Reviews. 2015.^[5]
Molecular wires. Guldi, D. M., Nishihara, H., & Venkataraman, L., Chemical Society Reviews, 2015, 44(4), 842-844.^[6]

References

1) Yamamoto, Kimihisa. "Biography of Professor Hiroshi Nishihara." J. Inorg. Organomet. Polym., 2013, 23:1–3 DOI 10.1007/s10904-012-9768-7
2) "Meet the Editorial Board of Inorganic Chemistry Frontiers." Inorg. Chem. Front., 2014, 1, 10. DOI: 10.1039/c4qi90002b

Weblinks

Einzelnachweise

↑ Azo-and quinone-conjugated redox complexes—photo-and proton-coupled intramolecular reactions based on d–π interaction." Kurihara, M., & Nishihara, H., Coordination chemistry reviews, 2002, 226(1), 125-135.http://www.sciencedirect.com/science/article/pii/S0010854501004210
↑ "Combination of redox-and photochemistry of azo-conjugated metal complexes." Nishihara, H., Coordination chemistry reviews, 2005, 249(13), 1468-1475. http://www.sciencedirect.com/science/article/pii/S0010854504002838
↑ "Construction of redox-and photo-functional molecular systems on electrode surface for application to molecular devices." Nishihara, H., Kanaizuka, K., Nishimori, Y., & Yamanoi, Y., Coordination Chemistry Reviews, 2007, 251(21), 2674-2687. http://www.sciencedirect.com/science/article/pii/S0010854507001075
↑ "Arylethynylanthraquinone and Bis (arylethynyl) anthraquinone: Strong Donor-Acceptor Interaction and Proton-induced Cyclization to Form Pyrylium and Dipyrylium Salts." Sakamoto, R., Rao, K. P., & Nishihara, H., Chemistry Letters, 2011, 40(12), 1316-1326. https://www.jstage.jst.go.jp/article/cl/40/12/40_12_1316/_article
↑
"Coordination Programming-A Concept for the Creation of Multifunctional Molecular Systems" Nishihara, H., Chem. Lett, 2014, 43, 388-395.
- "π-Conjugated bis (terpyridine) metal complex molecular wires." Sakamoto, R., Wu, K. H., Matsuoka, R., Maeda, H., & Nishihara, H., Chemical Society Reviews. 2015. http://pubs.rsc.org/en/Content/ArticleLanding/2015/CS/C5CS00081E#!divAbstract
↑ Molecular wires. Guldi, D. M., Nishihara, H., & Venkataraman, L., Chemical Society Reviews, 2015, 44(4), 842-844. http://pubs.rsc.org/en/Content/ArticleLanding/2015/CS/C5CS90010G#!divAbstract

[1] Azo-and quinone-conjugated redox complexes—photo-and proton-coupled intramolecular reactions based on d–π interaction." Kurihara, M., & Nishihara, H., Coordination chemistry reviews, 2002, 226(1), 125-135.http://www.sciencedirect.com/science/article/pii/S0010854501004210

[2] "Combination of redox-and photochemistry of azo-conjugated metal complexes." Nishihara, H., Coordination chemistry reviews, 2005, 249(13), 1468-1475. http://www.sciencedirect.com/science/article/pii/S0010854504002838

[3] "Construction of redox-and photo-functional molecular systems on electrode surface for application to molecular devices." Nishihara, H., Kanaizuka, K., Nishimori, Y., & Yamanoi, Y., Coordination Chemistry Reviews, 2007, 251(21), 2674-2687. http://www.sciencedirect.com/science/article/pii/S0010854507001075

[4] "Arylethynylanthraquinone and Bis (arylethynyl) anthraquinone: Strong Donor-Acceptor Interaction and Proton-induced Cyclization to Form Pyrylium and Dipyrylium Salts." Sakamoto, R., Rao, K. P., & Nishihara, H., Chemistry Letters, 2011, 40(12), 1316-1326. https://www.jstage.jst.go.jp/article/cl/40/12/40_12_1316/_article

[5] "Coordination Programming-A Concept for the Creation of Multifunctional Molecular Systems" Nishihara, H., Chem. Lett, 2014, 43, 388-395.
"π-Conjugated bis (terpyridine) metal complex molecular wires." Sakamoto, R., Wu, K. H., Matsuoka, R., Maeda, H., & Nishihara, H., Chemical Society Reviews. 2015. http://pubs.rsc.org/en/Content/ArticleLanding/2015/CS/C5CS00081E#!divAbstract

[6] "π-Conjugated bis (terpyridine) metal complex molecular wires." Sakamoto, R., Wu, K. H., Matsuoka, R., Maeda, H., & Nishihara, H., Chemical Society Reviews. 2015. http://pubs.rsc.org/en/Content/ArticleLanding/2015/CS/C5CS00081E#!divAbstract

[6] Molecular wires. Guldi, D. M., Nishihara, H., & Venkataraman, L., Chemical Society Reviews, 2015, 44(4), 842-844. http://pubs.rsc.org/en/Content/ArticleLanding/2015/CS/C5CS90010G#!divAbstract

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