Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers for singlet fission and light energy conversion

Taku Hasobe

doi:10.1246/CL.200858

Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers for singlet fission and light energy conversion

Taku Hasobe

化学科

研究成果: Review article › 査読

4 被引用数 (Scopus)

抄録

Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers (SAMs) of organic chromophores (e.g., acene derivatives) are systematically discussed to examine the photophysical properties together with covalently-linked dimeric and oligomeric forms. Multi-exciton generation (i.e., singlet fission) and light energy conversion processes that occur in a reaction site composed of chemically modified organic chromophores on the surface of inorganic nanomaterials such as gold nanocluster, gold nanorod and quantum dot are described.

本文言語	English
ページ（範囲）	615-622
ページ数	8
ジャーナル	Chemistry Letters
巻	50
号	4
DOI	https://doi.org/10.1246/CL.200858
出版ステータス	Published - 2021

ASJC Scopus subject areas

化学 (全般)

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10.1246/CL.200858

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引用スタイル

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abstract = "Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers (SAMs) of organic chromophores (e.g., acene derivatives) are systematically discussed to examine the photophysical properties together with covalently-linked dimeric and oligomeric forms. Multi-exciton generation (i.e., singlet fission) and light energy conversion processes that occur in a reaction site composed of chemically modified organic chromophores on the surface of inorganic nanomaterials such as gold nanocluster, gold nanorod and quantum dot are described.",

keywords = "Gold nanocluster, Quantum dot, Singlet fission",

author = "Taku Hasobe",

note = "Funding Information: This work was partially supported by JSPS KAKENHI Grant Numbers Nos. 18H01957, 18K19063, 19H00888, 20H05234 and 20KK0120. The author deeply appreciates Prof. N. V. Tkachenko, Prof. Y. Kobori, Prof. T. Wada, Prof. Y. Araki, Prof. T. Mori, Prof. M. Yoshizawa, Prof. M. Akita, Prof. H. Sakurai, Dr. H. Sakai, Dr. H. Nagashima, Dr. P. Maity, Dr. R. N. Publisher Copyright: {\textcopyright} 2021 The Chemical Society of Japan",

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TY - JOUR

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AU - Hasobe, Taku

N1 - Funding Information: This work was partially supported by JSPS KAKENHI Grant Numbers Nos. 18H01957, 18K19063, 19H00888, 20H05234 and 20KK0120. The author deeply appreciates Prof. N. V. Tkachenko, Prof. Y. Kobori, Prof. T. Wada, Prof. Y. Araki, Prof. T. Mori, Prof. M. Yoshizawa, Prof. M. Akita, Prof. H. Sakurai, Dr. H. Sakai, Dr. H. Nagashima, Dr. P. Maity, Dr. R. N. Publisher Copyright: © 2021 The Chemical Society of Japan

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Y1 - 2021

N2 - Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers (SAMs) of organic chromophores (e.g., acene derivatives) are systematically discussed to examine the photophysical properties together with covalently-linked dimeric and oligomeric forms. Multi-exciton generation (i.e., singlet fission) and light energy conversion processes that occur in a reaction site composed of chemically modified organic chromophores on the surface of inorganic nanomaterials such as gold nanocluster, gold nanorod and quantum dot are described.

AB - Organic-inorganic hybrid molecular architectures utilizing self-assembled monolayers (SAMs) of organic chromophores (e.g., acene derivatives) are systematically discussed to examine the photophysical properties together with covalently-linked dimeric and oligomeric forms. Multi-exciton generation (i.e., singlet fission) and light energy conversion processes that occur in a reaction site composed of chemically modified organic chromophores on the surface of inorganic nanomaterials such as gold nanocluster, gold nanorod and quantum dot are described.

KW - Gold nanocluster

KW - Quantum dot

KW - Singlet fission

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