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Your search keyword '"Nakamura, Masaharu"' showing total 45 results
Start Over Author "Nakamura, Masaharu" Publication Type Electronic Resources
45 results on '"Nakamura, Masaharu"'

1. Dual Catalysis of Gold Nanoclusters: Photocatalytic Cross-Dehydrogenative Coupling by Cooperation of Superatomic Core and Molecularly Modified Staples

Author

30455274, Isozaki, Katsuhiro, Iseri, Kenta, Saito, Ryohei, Ueda, Kyosuke, Nakamura, Masaharu, 30455274, Isozaki, Katsuhiro, Iseri, Kenta, Saito, Ryohei, Ueda, Kyosuke, and Nakamura, Masaharu

Abstract

Thiolate-protected gold nanoclusters (AuNCs) have attracted significant attention as nano-catalysts, revealing a superatomic core and gold-thiolate staples as distinct structural units. Here, we demonstrate the unprecedented dual catalytic activity of thiolate-protected [Au₂₅(SR)₁₈]⁻ nanoclusters, involving both photosensitized ¹O₂ generation by the Au₁₃ superatomic core and catalytic carbon–carbon bond formation facilitated by Au₂(SR)₃ staples. This synergistic combination of two different catalytic units enables efficient cross-dehydrogenative coupling of terminal alkynes and tertiary aliphatic amines to afford propargylamines in high yields of up to 93%. Mixed-ligand AuNCs bearing both thiolate and alkynyl ligands revealed the intermediacy of the alkynyl-exchanged AuNCs toward both photosensitization and C–C bond-forming catalytic cycles. Density functional theory calculations also supported the intermediacy of the alkynyl-exchanged AuNCs. Thus, the use of ligand-protected metal nanoclusters has enabled the development of an exceptional multifunctional catalyst, wherein distinct nanocluster components facilitate cooperative photo- and chemo-catalysis.

Published
2024

2. ICR News 2022

Author

OHKI, Yasuhiro, WAKAMIYA, Atsushi, NAKAMURA, Masaharu, OHKI, Yasuhiro, WAKAMIYA, Atsushi, and NAKAMURA, Masaharu

Published
2022

3. ICR News 2021

Author

MURATA, Yasujiro, TAKENAKA, Mikihito, NAKAMURA, Masaharu, ONO, Teruo, MURATA, Yasujiro, TAKENAKA, Mikihito, NAKAMURA, Masaharu, and ONO, Teruo

Published
2021

4. Iron-catalysed enantioselective carbometalation of azabicycloalkenes

Author

30455274, Adak, Laksmikanta, Jin, Masayoshi, Saito, Shota, Kawabata, Tatsuya, Itoh, Takuma, Ito, Shingo, Sharma, Akhilesh K., Gower, Nicholas J., Cogswell, Paul, Geldsetzer, Jan, Takaya, Hikaru, Isozaki, Katsuhiro, Nakamura, Masaharu, 30455274, Adak, Laksmikanta, Jin, Masayoshi, Saito, Shota, Kawabata, Tatsuya, Itoh, Takuma, Ito, Shingo, Sharma, Akhilesh K., Gower, Nicholas J., Cogswell, Paul, Geldsetzer, Jan, Takaya, Hikaru, Isozaki, Katsuhiro, and Nakamura, Masaharu

Abstract

The first enantioselective carbometalation reaction of azabicycloalkenes has been achieved by iron catalysis to in situ form optically active organozinc intermediates, which are amenable to further synthetic elaborations. The observed chiral induction, along with the DFT and XAS analyses, reveals the direct coordination of the chiral phosphine ligand to the iron centre during the carbon–carbon and carbon–metal bond forming step. This new class of iron-catalysed asymmetric reaction will contribute to the synthesis and production of bioactive molecules.

Published
2021

5. Iron-catalyzed AlkylAlkyl negishi coupling of organoaluminum reagents

Author

30455274, 00282723, Agata, Ryosuke, Kawamura, Shintaro, Isozaki, Katsuhiro, Nakamura, Masaharu, 30455274, 00282723, Agata, Ryosuke, Kawamura, Shintaro, Isozaki, Katsuhiro, and Nakamura, Masaharu

Abstract

The first iron-catalyzed cross-coupling reaction of alkyl halides with alkylaluminum reagents (alkyl–alkyl Negishi coupling) is developed using an iron/bisphosphine catalyst system. The reaction shows high functional group tolerance: various primary alkyl halides possessing a non-protected indole, carboxyl, or hydroxy group are coupled with primary alkylaluminum reagents in good yields. Potassium fluoride plays a key role to promote the reaction by generating an aluminate species, which facilitates the transmetalation between the organoaluminum and the iron catalyst.

Published
2019

6. Discovery of 12-mer peptides that bind to wood lignin.

Author

30455274, 00282723, 50304035, 80201200, Yamaguchi, Asako, Isozaki, Katsuhiro, Nakamura, Masaharu, Takaya, Hikaru, Watanabe, Takashi, 30455274, 00282723, 50304035, 80201200, Yamaguchi, Asako, Isozaki, Katsuhiro, Nakamura, Masaharu, Takaya, Hikaru, and Watanabe, Takashi

Abstract

Lignin, an abundant terrestrial polymer, is the only large-volume renewable feedstock composed of an aromatic skeleton. Lignin has been used mostly as an energy source during paper production; however, recent interest in replacing fossil fuels with renewable resources has highlighted its potential value in providing aromatic chemicals. Highly selective degradation of lignin is pivotal for industrial production of paper, biofuels, chemicals, and materials. However, few studies have examined natural and synthetic molecular components recognizing the heterogeneous aromatic polymer. Here, we report the first identification of lignin-binding peptides possessing characteristic sequences using a phage display technique. The consensus sequence HFPSP was found in several lignin-binding peptides, and the outer amino acid sequence affected the binding affinity of the peptides. Substitution of phenylalanine7 with Ile in the lignin-binding peptide C416 (HFPSPIFQRHSH) decreased the affinity of the peptide for softwood lignin without changing its affinity for hardwood lignin, indicating that C416 recognised structural differences between the lignins. Circular dichroism spectroscopy demonstrated that this peptide adopted a highly flexible random coil structure, allowing key residues to be appropriately arranged in relation to the binding site in lignin. These results provide a useful platform for designing synthetic and biological catalysts selectively bind to lignin.

Published
2016

7. Iron-catalyzed diboration and carboboration of alkynes.

Author

90432319, 00282723, Nakagawa, Naohisa, Hatakeyama, Takuji, Nakamura, Masaharu, 90432319, 00282723, Nakagawa, Naohisa, Hatakeyama, Takuji, and Nakamura, Masaharu

Abstract

An iron-catalyzed diboration reaction of alkynes with bis(pinacolato)diboron (B2pin2) and external borating agents (MeOB(OR)2) affords diverse symmetrical or unsymmetrical cis-1, 2-diborylalkenes. The simple protocol for the diboration reaction can be extended to the iron-catalyzed carboboration of alkynes with primary and, unprecedentedly, secondary alkyl halides, affording various tetrasubstituted monoborylalkenes in a highly stereoselective manner. DFT calculations indicate that a boryliron intermediate adds across the triple bond of an alkyne to afford an alkenyliron intermediate, which can react with the external trapping agents, borates and alkyl halides. In situ trapping experiments support the intermediacy of the alkenyl iron species using radical probe stubstrates.

Published
2015

8. Iron-catalyzed Suzuki–Miyaura Coupling Reaction of Unactivated Alkyl Halides with Lithium Alkynylborates

Author

90432319, 00282723, Nakagawa, Naohisa, Hatakeyama, Takuji, Nakamura, Masaharu, 90432319, 00282723, Nakagawa, Naohisa, Hatakeyama, Takuji, and Nakamura, Masaharu

Abstract

A Suzuki–Miyaura coupling reaction between unactivated alkyl halides and lithium alkynylborates was performed using an iron–bisphosphine catalyst. The reaction shows high chemoselectivity and is applicable to a broad scope of substrates bearing electrophilic functional groups. A radical probe experiment using cyclopropylmethyl bromide was conducted to investigate the nature of the intermediate in the reaction, showing that an alkyl radical species is generated from the alkyl halide substrate.

Published
2015

9. Regio- and stereoselective multisubstituted olefin synthesis via hydro/carboalumination of alkynes and subsequent iron-catalysed cross-coupling reaction with alkyl halides

Author

00282723, Kawamura, Shintaro, Agata, Ryosuke, Nakamura, Masaharu, 00282723, Kawamura, Shintaro, Agata, Ryosuke, and Nakamura, Masaharu

Abstract

A new synthetic route towards multisubstituted olefins, which are recurring core units in various pharmaceutical and bioactive compounds, was developed based on the direct cross coupling of alkenylaluminium reagents which were prepared in situ by the hydro- and carbometalation of alkynes, with non-activated alkyl halides in the presence of an iron catalyst. For the first time, alkenylaluminium reagents participated in an iron-catalysed cross-coupling reaction, following the activation of the aluminium reagents by a metal fluoride. The hydro- and carboalumination of alkynes and the subsequent cross-coupling reactions could be conducted in a one-pot manner and proceeded regio- and stereoselectively to give a variety of di-, tri-, and tetrasubstituted alkenes in good to excellent yields.

Published
2015

10. Investigation of Organoiron Catalysis in Kumada–Tamao–Corriu-Type Cross-Coupling Reaction Assisted by Solution-Phase X-ray Absorption Spectroscopy

Author

50304035, 30455274, 50735355, 90432319, 00282723, Takaya, Hikaru, Nakajima, Sho, Nakagawa, Naohisa, Isozaki, Katsuhiro, Iwamoto, Takahiro, Imayoshi, Ryuji, Gower, Nicholas J., Adak, Laksmikanta, Hatakeyama, Takuji, Honma, Tetsuo, Takagaki, Masafumi, Sunada, Yusuke, Nagashima, Hideo, Hashizume, Daisuke, Takahashi, Osamu, Nakamura, Masaharu, 50304035, 30455274, 50735355, 90432319, 00282723, Takaya, Hikaru, Nakajima, Sho, Nakagawa, Naohisa, Isozaki, Katsuhiro, Iwamoto, Takahiro, Imayoshi, Ryuji, Gower, Nicholas J., Adak, Laksmikanta, Hatakeyama, Takuji, Honma, Tetsuo, Takagaki, Masafumi, Sunada, Yusuke, Nagashima, Hideo, Hashizume, Daisuke, Takahashi, Osamu, and Nakamura, Masaharu

Abstract

Solution-phase synchrotron X-ray absorption spectroscopy (XAS) is a powerful tool for structural and mechanistic investigations of paramagnetic organoiron intermediates in solution-phase reactions. For paramagnetic organotransition metal intermediates, difficulties are often encountered with conventional NMR- and EPR-based analyses. By using solution-phase XAS, we succeeded in identifying the organoiron species formed in the reaction of iron bisphosphine with mesitylmagnesium bromide, MesMgBr, and 1-bromodecane in a [FeX2(SciOPP)]-catalyzed Kumada–Tamao–Corriu (KTC)-type cross-coupling reaction. X-ray absorption near-edge structure (XANES) spectra showed that the resulting aryliron species possessed a divalent oxidation state. Extended X-ray absorption fine structure (EXAFS) demonstrated that the solution-phase molecular geometries of these species are in satisfactory agreement with the crystallographic geometries of [FeIIBrMes(SciOPP)] and [FeIIMes2(SciOPP)]. By combining GC-quantitative analysis and solution-phase XAS, the cross-coupling reactivities of these aryliron species were successfully investigated in the reaction with 1-bromodecane under stoichiometric and catalytic conditions.

Published
2015

11. Synthesis of 2,7-Disubstituted 5,10-Diaryl-5,10-dihydrophenazines via Iron-Catalyzed Intramolecular Ring-Closing C–H Amination

Author

00282723, 50304035, Nakamura, Masaharu, Aoki, Yuma, Imayoshi, Ryuji, Hatakeyama, Takuji, Takaya, Hikaru, 00282723, 50304035, Nakamura, Masaharu, Aoki, Yuma, Imayoshi, Ryuji, Hatakeyama, Takuji, and Takaya, Hikaru

Abstract

A novel iron-catalyzed intramolecular ring-closing C–H amination reaction of o-phenylenediamines was developed, affording the corresponding 2,7-disubstituted 5,10-diaryl-5,10-dihydrophenazines in acceptable yields. The reaction proceeded via the in-situ generation of the magnesium amides of the starting secondary amines in the presence of a catalytic amount of an iron salt and a stoichiometric amount of 1,2-dibromoethane as the terminal oxidant. The substituted dihydrophenazine derivatives can potentially be used as hole-injection materials in organic electroluminescence (OEL) devices and also offer scaffolds for further synthetic elaborations of OEL materials.

Published
2014

12. Iron-catalysed cross-coupling of halohydrins with aryl aluminium reagents: a protecting-group-free strategy attaining remarkable rate enhancement and diastereoinduction.

Author

00282723, Kawamura, Shintaro, Kawabata, Tatsuya, Ishizuka, Kentaro, Nakamura, Masaharu, 00282723, Kawamura, Shintaro, Kawabata, Tatsuya, Ishizuka, Kentaro, and Nakamura, Masaharu

Abstract

Non-protected halohydrins are cross-coupled with aryl aluminium reagents to produce aryl alkanols in the presence of the iron-bisphosphine catalysts. Remarkable reaction rate enhancement and diastereoinduction are realized by the in situ generated aluminium alkoxides, offering a new method for the reactivity and selectivity control of the iron-catalysed cross-coupling reaction.

Published
2012

15. Iron-Catalyzed Suzuki-Miyaura Coupling of Alkyl Halides

Author

Hatakeyama, Takuji, Hashimoto, Toru, Kondo, Yoshiyuki, Fujiwara, Yuichi, Seike, Hirofumi, Takaya, Hikaru, Tamada, Yoshinori, Ono, Teruo, Nakamura, Masaharu, Hatakeyama, Takuji, Hashimoto, Toru, Kondo, Yoshiyuki, Fujiwara, Yuichi, Seike, Hirofumi, Takaya, Hikaru, Tamada, Yoshinori, Ono, Teruo, and Nakamura, Masaharu

Published
2010

21. Iron-Catalyzed Suzuki-Miyaura Coupling of Alkyl Halides

Author

90432319, 50304035, 90296749, 00282723, Hatakeyama, Takuji, Hashimoto, Toru, Kondo, Yoshiyuki, Fujiwara, Yuichi, Seike, Hirofumi, Takaya, Hikaru, Tamada, Yoshinori, Ono, Teruo, Nakamura, Masaharu, 90432319, 50304035, 90296749, 00282723, Hatakeyama, Takuji, Hashimoto, Toru, Kondo, Yoshiyuki, Fujiwara, Yuichi, Seike, Hirofumi, Takaya, Hikaru, Tamada, Yoshinori, Ono, Teruo, and Nakamura, Masaharu

Published
2010

25. Iron-catalysed Suzuki coupling? A cautionary tale

Author

Bedford, Robin B., Nakamura, Masaharu, Gower, Nicholas J., Haddow, Mairi F., Hall, Mark A., Huwe, Michael, Hashimoto, Tohru, Okopie, Rukeme A., Bedford, Robin B., Nakamura, Masaharu, Gower, Nicholas J., Haddow, Mairi F., Hall, Mark A., Huwe, Michael, Hashimoto, Tohru, and Okopie, Rukeme A.

Published
2009

30. Iron-catalysed Suzuki coupling? A cautionary tale

Author

00282723, Bedford, Robin B., Nakamura, Masaharu, Gower, Nicholas J., Haddow, Mairi F., Hall, Mark A., Huwe, Michael, Hashimoto, Tohru, Okopie, Rukeme A., 00282723, Bedford, Robin B., Nakamura, Masaharu, Gower, Nicholas J., Haddow, Mairi F., Hall, Mark A., Huwe, Michael, Hashimoto, Tohru, and Okopie, Rukeme A.

Published
2009

40. Iron-Catalyzed Enyne Cross-Coupling Reaction

Author

90432319, 00282723, Hatakeyama, Takuji, Yoshimoto, Yuya, Gabriel, Toma, Nakamura, Masaharu, 90432319, 00282723, Hatakeyama, Takuji, Yoshimoto, Yuya, Gabriel, Toma, and Nakamura, Masaharu

Published
2008

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