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347 results on '"Liaw, Wen ‐ Feng"'

8. Substrate-Gated Transformation of a Pre-Catalyst into an Iron-Hydride Intermediate [(NO)2(CO)Fe(μ-H)Fe(CO)(NO)2]− for Catalytic Dehydrogenation of Dimethylamine Borane

Author

Tseng, Yu-Ting, primary, Pelmenschikov, Vladimir, additional, Iffland-Mühlhaus, Linda, additional, Calabrese, Donato, additional, Chang, Yu-Che, additional, Laun, Konstantin, additional, Pao, Chih-Wen, additional, Sergueev, Ilya, additional, Yoda, Yoshitaka, additional, Liaw, Wen-Feng, additional, Chen, Chien-Hong, additional, Hsu, I-Jui, additional, Apfel, Ulf-Peter, additional, Caserta, Giorgio, additional, Lauterbach, Lars, additional, and Lu, Tsai-Te, additional

Published
2022
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13. Functional Groups Assisted Tunable Dielectric Permittivity of Guest‐Free Zn‐Based Coordination Polymers for Gate Dielectrics

Author

Kamal, Saqib, primary, Inamdar, Arif I., additional, Chiou, Kuan‐Ru, additional, Sainbileg, Batjargal, additional, Usman, Muhammad, additional, Chen, Jenq‐Wei, additional, Luo, Tzuoo‐Tsair, additional, Hayashi, Michitoshi, additional, Hung, Chen‐Hsiung, additional, Liaw, Wen‐Feng, additional, and Lu, Kuang‐Lieh, additional

Published
2022
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16. Substrate-Gated Transformation of a Pre-Catalyst into an Iron-Hydride Intermediate [(NO)2(CO)Fe(μ-H)Fe(CO)(NO)2]− for Catalytic Dehydrogenation of Dimethylamine Borane.

Author

Tseng, Yu-Ting, Pelmenschikov, Vladimir, Iffland-Mühlhaus, Linda, Calabrese, Donato, Chang, Yu-Che, Laun, Konstantin, Pao, Chih-Wen, Sergueev, Ilya, Yoda, Yoshitaka, Liaw, Wen-Feng, Chen, Chien-Hong, Hsu, I-Jui, Apfel, Ulf-Peter, Caserta, Giorgio, Lauterbach, Lars, and Lu, Tsai-Te

Published
2023
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19. Substrate-Gated Transformation of a Pre-Catalyst into an Iron-Hydride Intermediate [(NO)2(CO)Fe(μ-H)Fe(CO)(NO)2]−for Catalytic Dehydrogenation of Dimethylamine Borane

Author

Tseng, Yu-Ting, Pelmenschikov, Vladimir, Iffland-Mühlhaus, Linda, Calabrese, Donato, Chang, Yu-Che, Laun, Konstantin, Pao, Chih-Wen, Sergueev, Ilya, Yoda, Yoshitaka, Liaw, Wen-Feng, Chen, Chien-Hong, Hsu, I-Jui, Apfel, Ulf-Peter, Caserta, Giorgio, Lauterbach, Lars, and Lu, Tsai-Te

Abstract

Continued efforts are made on the development of earth-abundant metal catalysts for dehydrogenation/hydrolysis of amine boranes. In this study, complex [K-18-crown-6-ether][(NO)2Fe(μ-MePyr)(μ-CO)Fe(NO)2] (3-K-crown, MePyr = 3-methylpyrazolate) was explored as a pre-catalyst for the dehydrogenation of dimethylamine borane (DMAB). Upon evolution of H2(g)from DMAB triggered by 3-K-crown, parallel conversion of 3-K-crowninto [(NO)2Fe(N,N′-MePyrBH2NMe2)]−(5) and an iron-hydride intermediate [(NO)2(CO)Fe(μ-H)Fe(CO)(NO)2]−(A) was evidenced by X-ray diffraction/nuclear magnetic resonance/infrared/nuclear resonance vibrational spectroscopy experiments and supported by density functional theory calculations. Subsequent transformation of Ainto complex [(NO)2Fe(μ-CO)2Fe(NO)2]−(6) is synchronized with the deactivated generation of H2(g). Through reaction of complex [Na-18-crown-6-ether][(NO)2Fe(η2-BH4)] (4-Na-crown) with CO(g)as an alternative synthetic route, isolated intermediate [Na-18-crown-6-ether][(NO)2(CO)Fe(μ-H)Fe(CO)(NO)2] (A-Na-crown) featuring catalytic reactivity toward dehydrogenation of DMAB supports a substrate-gated transformation of a pre-catalyst [(NO)2Fe(μ-MePyr)(μ-CO)Fe(NO)2]−(3) into the iron-hydride species Aas an intermediate during the generation of H2(g).

Published
2023
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20. One-Pot Photosynthesis of Cubic Fe@Fe3O4Core–Shell Nanoparticle Well-Dispersed in N-Doping Carbonaceous Polymer Using a Molecular Dinitrosyl Iron Precursor

Author

Habib, Ibrahim, Lu, Tsai-Te, Sabbah, Amr, Chen, Kuei-Hsien, Tsai, Fu-Te, and Liaw, Wen-Feng

Abstract

Nanoscale zerovalent iron (NZVI) features potential application to biomedicine, (electro-/photo)catalysis, and environmental remediation. However, multiple-synthetic steps and limited ZVI content prompt the development of a novel strategy for efficient preparation of NZVI composites. Herein, a dinitrosyl iron complex [(N3MDA)Fe(NO)2] (1-N3MDA) was explored as a molecular precursor for one-pot photosynthesis of a cubic Fe@Fe3O4core–shell nanoparticle (ZVI% = 60%) well-dispersed in an N-doping carbonaceous polymer (NZVI@NC). Upon photolysis of 1-N3MDA, photosensitizer Eosin Y, and sacrificial reductant TEA, the α-diimine N3MDA and noninnocent NO ligands (1) enable the slow reduction of 1-N3MDAinto an unstable [(N3MDA)Fe(NO)2]−species, (2) serve as a capping reagent for controlled nucleation of zerovalent Fe atom into Fe nanoparticle, and (3) promote the polymerization of degraded Eosin Y with N3MDA yielding an N-doping carbonaceous matrix in NZVI@NC. This discovery of a one-pot photosynthetic process for NZVI@NC inspires continued efforts on its application to photolytic water splitting and ferroptotic chemotherapy in the near future.

Published
2022
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31. Heterometallic complexes with selenolate ligands: crystal structures of ((CO)3Mn(mu-SePh)3Co(mu-SePh)3Mn(CO)3)-, (CO)4Mn(mu-SeMe)2Co(CO)(mu-SeMe)3Mn(CO)3, and ((CO)3Mn(mu-SePh)3Mn(CO)3)-

Author

Liaw, Wen-Feng, Lee, Way-Zen, Wang, Chun-Yuan, Lee, Gene-Hsiang, and Peng, Shie-Ming

Subjects
Coordination compounds -- Analysis, Selenium compounds -- Analysis, Ligands -- Analysis, X-ray crystallography -- Usage, Cobalt -- Analysis, Manganese -- Analysis, Chemistry
Abstract

X-ray crystallography was done to elucidate the structural characteristics of ((CO)3Mn(mu-SePh)3Co(mu-SePh)3Mn(CO)3)-, (CO)4Mn(mu-SeMe)2Co(CO)(mu-SeMe)3Mn(CO)3, and ((CO)3Mn(mu-SePh)3Mn(CO)3)-. The data provided evidences that the stability of the neutral Mn(I)-Co(III)-Mn(I)-selenolate complexes is determined by the distinct electronic effects between methaneselenolate and benzeneselenolate.

Published
1997

32. An approach to heterometallic complexes with selenolate and tellurolate ligands: crystal structures of cis-[Mn(Co)4(SePh)2]-, [(CO)3Mn(mu-SeMe)3Mn(CO)3]-, [(CO)4Mn(mu-TePh)2Co(CO)(mu-SePh)3Mn(CO)3, and (CO)3Mn(mu-SePh)3Fe(CO)3

Author

Liaw, Wen-Feng, Chuang, Chih-Yuan, Lee, Way-Zen, Lee, Chen-Kang, Lee, Gene-Hsiang, and Peng, Shie-Ming

Subjects
Coordination compounds -- Research, Inorganic compounds -- Synthesis, Chemical reactions -- Research, Chemistry
Abstract

A new Mn(I)-selenolate complex is synthesized by the oxidative addition of (RSe)2 to cis-[Mn(CO)5]-. Another complex of the same type is synthesized by the thermal transformation of cis-[Mn(CO)4(SeR)2]-. The reactivities of both complexes are determined. It is shown that the compounds used in synthesizing the complexes act as chelating metallo ligands during the process.

Published
1996

39. Dinitrosyl Iron Complex [K‐18‐crown‐6‐ether][(NO)2Fe(MePyrCO2)]: Intermediate for Capture and Reduction of Carbon Dioxide.

Author

Tseng, Yu‐Ting, Ching, Wei‐Min, Liaw, Wen‐Feng, and Lu, Tsai‐Te

Subjects
CARBON dioxide reduction, LEWIS acids, CARBON dioxide, CARBON dioxide fixation, FEEDSTOCK
Abstract

Continued efforts are made for the utilization of CO2 as a C1 feedstock for regeneration of valuable chemicals and fuels. Mechanistic study of molecular (electro‐/photo‐)catalysts disclosed that initial step for CO2 activation involves either nucleophilic insertion or direct reduction of CO2. In this study, nucleophilic activation of CO2 by complex [(NO)2Fe(μ‐MePyr)2Fe(NO)2]2− (2, MePyr=3‐methylpyrazolate) results in the formation of CO2‐captured complex [(NO)2Fe(MePyrCO2)]− (2‐CO2, MePyrCO2=3‐methyl‐pyrazole‐1‐carboxylate). Single‐crystal structure, spectroscopic, reactivity, and computational study unravels 2‐CO2 as a unique intermediate for reductive transformation of CO2 promoted by Ca2+. Moreover, sequential reaction of 2 with CO2, Ca(OTf)2, and KC8 established a synthetic cycle, 2 → 2‐CO2 → [(NO)2Fe(μ‐MePyr)2Fe(NO)2] (1) → 2, for selective conversion of CO2 into oxalate. Presumably, characterization of the unprecedented intermediate 2‐CO2 may open an avenue for systematic evaluation of the effects of alternative Lewis acids on reduction of CO2. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Photochemistry of the dinitrosyl iron complex [S5Fe(NO)2]- leading to reversible formation of [S5Fe(u-S)2FeS5]2-: spectroscopic characterization of species relevant to the nitric oxide modification and repair of [2Fe-2S] ferredoxins

Author

Tsai, Ming-Li, Chen, Chiao-Chun, Hsu, I-Jui, Ke, Shyue-Che, Hsieh, Chung-Hung, Liaw, Wen-Feng, Chiang, Kuo-An, Lee, Gene-Hsiang, Wang, Yu, Chen, Jin-Ming, and Lee, Jyh-Fu

Subjects
Nitric oxide -- Chemical properties, Iron compounds -- Chemical properties, Chemical reactions -- Analysis, Chemistry
Abstract

The reassembly of [2Fe-2S] cluster [S5Fe(u-S)2FeS5]2- relevant to the nitric oxide modification of [2Fe-2S] ferredoxin is examined. The use of cysteine desulfurase and L-cysteine in vitro is also studied.

Published
2004

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