Toshiharu Teranishi
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Explore the profile of Toshiharu Teranishi including associated specialties, affiliations and a list of published articles.
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Articles
115
Citations
570
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Recent Articles
1.
Higaki T, Tanaka K, Izu H, Oishi S, Kawamoto K, Tada M, et al.
J Am Chem Soc
. 2025 Jan;
147(4):3215-3222.
PMID: 39831690
Nanoclusters are nanometer-sized molecular compounds characterized by significant metal-metal bonding and low average oxidation states, and they exhibit unique properties distinct from those of small metal complexes or nanoparticles. Unlike...
2.
Yang M, Ge W, Teranishi T
Inorg Chem
. 2024 Dec;
63(51):24400-24409.
PMID: 39663568
Inorganic metal halides (IMHs) often suffer from severe fluorescence thermal quenching, limiting their application at elevated temperatures. Therefore, the exploration of IMHs exhibiting antithermal quenching (ATQ) behavior is of great...
3.
Cho K, Tahara H, Yamada T, Muto M, Saruyama M, Sato R, et al.
J Phys Chem Lett
. 2024 Nov;
15(48):11969-11974.
PMID: 39584258
Lead halide perovskite nanocrystals (NCs) have attracted much attention as materials for light-emitting diodes and quantum light sources. A deep understanding of exciton-phonon couplings is essential for obtaining a narrow...
4.
Suzuki W, Takahata R, Mizuhata Y, Tokitoh N, Xue S, Teranishi T
Chem Sci
. 2024 Oct;
PMID: 39464616
The interaction of dioxygen (O) with inorganic nanomaterials is one of the most essential steps to understanding the reaction mechanism of O-related reactions. However, quantitative analyses for O-binding processes and...
5.
Chen F, Lv X, Kuzuhara D, Zhang T, Pan J, Qiu F, et al.
Inorg Chem
. 2024 Oct;
63(44):21025-21030.
PMID: 39438275
Four structurally bent porphyrin(2.1.2.1) Pt(II) complexes have been obtained and verified well. Main absorbance of Pt(II) porphyrin(2.1.2.1) displayed a significant red-shift compared to that of porphyrin(1.1.1.1) Pt(II) molecules. O study...
6.
Ohkatsu G, Nishinobo T, Saruyama M, Teranishi T, Majima Y
Nanoscale Adv
. 2024 Aug;
6(17):4346-4351.
PMID: 39170983
Semiconductor quantum dots (QDs) have unique discrete energy levels determined by the particle size and material. Therefore, they have potential applications as novel optical and electronic devices. Among those, colloidal...
7.
Dong Y, Wu F, Zhang T, Qiu F, Pan J, Mizuhata Y, et al.
Inorg Chem
. 2024 Aug;
63(33):15510-15515.
PMID: 39105700
Stable and simplest expanded porphyrins, π-ring-fused porphyrin(2.1.1.1)s and Rh(I) complexes, have been obtained for the first time. Two free bases show chair-shaped molecular conformations, as if reassembled by the halves...
8.
Suzuki W, Mizuhata Y, Tokitoh N, Teranishi T
Chemistry
. 2024 Jun;
30(48):e202401242.
PMID: 38888030
Interactions between gold-based materials and dioxygen (O) have motivated researchers to understand reaction mechanisms for O activation by homo- and heterogeneous gold catalysts. In this work, gold(I) porphyrin dinuclear complexes...
9.
Pincella F, Isozaki K, Sato R, Teranishi T, Takaya H, Nakamura M
ACS Omega
. 2024 Jun;
9(23):24477-24488.
PMID: 38882095
Iron oxide nanoparticles (NPs) are nontoxic and abundant materials which have long been investigated as reusable catalysts in oxidation reactions, but their use so far has been hampered by a...
10.
Li Z, Saruyama M, Asaka T, Teranishi T
Nat Commun
. 2024 Jun;
15(1):4899.
PMID: 38851762
Flexible control of the composition and morphology of nanocrystals (NCs) over a wide range is an essential technology for the creation of functional nanomaterials. Cation exchange (CE) is a facile...