Search Results - "Gu, Nina X."

Hydrazine Formation via Coupling of a Nickel(III)–NH2 Radical by Gu, Nina X., Oyala, Paul H., Peters, Jonas C.

“…M(NHx) intermediates involved in N−N bond formation are central to ammonia oxidation (AO) catalysis, an enabling technology to ultimately exploit ammonia (NH3)…”
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Catalytic carbon–carbon bond cleavage in lignin via manganese–zirconium-mediated autoxidation by Palumbo, Chad T., Gu, Nina X., Bleem, Alissa C., Sullivan, Kevin P., Katahira, Rui, Stanley, Lisa M., Kenny, Jacob K., Ingraham, Morgan A., Ramirez, Kelsey J., Haugen, Stefan J., Amendola, Caroline R., Stahl, Shannon S., Beckham, Gregg T.

“…Efforts to produce aromatic monomers through catalytic lignin depolymerization have historically focused on aryl–ether bond cleavage. A large fraction of…”
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Autoxidation Catalysis for Carbon–Carbon Bond Cleavage in Lignin by Gu, Nina X., Palumbo, Chad T., Bleem, Alissa C., Sullivan, Kevin P., Haugen, Stefan J., Woodworth, Sean P., Ramirez, Kelsey J., Kenny, Jacob K., Stanley, Lisa D., Katahira, Rui, Stahl, Shannon S., Beckham, Gregg T.

“…Selective lignin depolymerization is a key step in lignin valorization to value-added products, and there are multiple catalytic methods to cleave labile…”
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H 2 Evolution from a Thiolate-Bound Ni(III) Hydride by Gu, Nina X, Oyala, Paul H, Peters, Jonas C

“…Terminal Ni hydrides are proposed intermediates in proton reduction catalyzed by both molecular electrocatalysts and metalloenzymes, but well-defined examples…”
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H2 Evolution from a Thiolate-Bound Ni(III) Hydride by Gu, Nina X, Oyala, Paul H, Peters, Jonas C

“…Terminal NiIII hydrides are proposed intermediates in proton reduction catalyzed by both molecular electrocatalysts and metalloenzymes, but well-defined…”
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An S = 1 / 2 Iron Complex Featuring N 2 , Thiolate, and Hydride Ligands: Reductive Elimination of H 2 and Relevant Thermochemical Fe-H Parameters by Gu, Nina X, Oyala, Paul H, Peters, Jonas C

“…Believed to accumulate on the Fe sites of the FeMo-cofactor (FeMoco) of MoFe-nitrogenase under turnover, strongly donating hydrides have been proposed to…”
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Hydrazine Formation via Coupling of a Nickel(III)-NH 2 Radical by Gu, Nina X, Oyala, Paul H, Peters, Jonas C

“…M(NH ) intermediates involved in N-N bond formation are central to ammonia oxidation (AO) catalysis, an enabling technology to ultimately exploit ammonia (NH )…”
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Cluster dynamics of heterometallic trinuclear clusters during ligand substitution, redox chemistry, and group transfer processes by Juda, Cristin E, Handford, Rex C, Bartholomew, Amymarie K, Powers, Tamara M, Gu, Nina X, Meyer, Elisabeth, Roth, Nikolaj, Chen, Yu-sheng, Zheng, Shao-Liang, Betley, Theodore A

“…Stepwise metalation of the hexadentate ligand tbs LH 6 ( tbs LH 6 = 1,3,5-C 6 H 9 (NHC 6 H 4 - o -NHSiMe 2 t Bu) 3 ) affords bimetallic trinuclear clusters (…”
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An S = 1/2 Iron Complex Featuring N2, Thiolate, and Hydride Ligands: Reductive Elimination of H2 and Relevant Thermochemical Fe–H Parameters by Gu, Nina X, Oyala, Paul H, Peters, Jonas C

“…Believed to accumulate on the Fe sites of the FeMo-cofactor (FeMoco) of MoFe-nitrogenase under turnover, strongly donating hydrides have been proposed to…”
Get full text

Hydrazine Formation via Coupling of a Nickel(III)–NH2 Radical by Gu, Nina X., Oyala, Paul H., Peters, Jonas C.

“…M(NHx) intermediates involved in N−N bond formation are central to ammonia oxidation (AO) catalysis, an enabling technology to ultimately exploit ammonia (NH3)…”
Get full text

Synthesis of Open-Shell, Bimetallic Mn/Fe Trinuclear Clusters by Powers, Tamara M, Gu, Nina X, Fout, Alison R, Baldwin, Anne M, Hernández Sánchez, Raúl, Alfonso, Denise M, Chen, Yu-Sheng, Zheng, Shao-Liang, Betley, Theodore A

“…Concomitant deprotonation and metalation of hexadentate ligand platform tbsLH6 (tbsLH6 = 1,3,5-C6H9(NHC6H4-o-NHSiMe2 t Bu)3) with divalent transition metal…”
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Hydrazine Formation via Coupling of a NiIII-NH2 Radical by Gu, Nina X., Oyala, Paul H., Peters, Jonas C.

“…M(NH x ) intermediates involved in N–N bond formation are central to ammonia oxidation (AO) catalysis, an enabling technology to ultimately exploit ammonia (NH…”
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Hydrazine Formation via Coupling of a Nickel(III)–NH 2 Radical by Gu, Nina X., Oyala, Paul H., Peters, Jonas C.

“…M(NH x ) intermediates involved in N−N bond formation are central to ammonia oxidation (AO) catalysis, an enabling technology to ultimately exploit ammonia (NH…”
Get full text