Výsledky vyhledávání - "Brooks J. Hornstein"

A Test of the Transition-Metal Nanocluster Formation and Stabilization Ability of the Most Common Polymeric Stabilizer, Poly(vinylpyrrolidone), as Well as Four Other Polymeric Protectants

Autor: Richard G. Finke, and Brooks J. Hornstein, Lisa S. Ott

Publikováno v: Langmuir. 22:9357-9367

Following an introduction to the nanocluster stabilization literature and DLVO (Derjaugin-Landau-Verwey-Overbeek) theory of colloidal stability, the most common steric stabilizer of transition-metal nanoclusters, poly(vinylpyrrolidone) (PVP), has bee

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::44f877da265c18292e00027469704a4b
https://doi.org/10.1021/la060934m

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Photoelectrochemistry on RuII-2,2‘-bipyridine-phosphonate-Derivatized TiO2 with the I3-/I- and Quinone/Hydroquinone Relays. Design of Photoelectrochemical Synthesis Cells

Autor: Thomas J. Meyer, Laurie A. Gallagher, Brooks J. Hornstein, Scafford A. Serron, Xingu Wen, Jon R. Schoonover, Dana M. Dattelbaum

Publikováno v: Inorganic Chemistry. 44:2089-2097

Photocurrent measurements have been made on nanocrystalline TiO2 surfaces derivatized by adsorption of a catalyst precursor, [Ru(tpy)(bpy(PO3H2)2)(OH2)]2+, or chromophore, [Ru(bpy)2 (bpy(PO3H2)2)]2+ (tpy is 2,2':6',2' '-terpyridine, bpy is 2,2'-bipyr

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7f32ebd0238d7dc5f6c3785d268223a5
https://doi.org/10.1021/ic0400991

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Transition-Metal Nanocluster Kinetic and Mechanistic Studies Emphasizing Nanocluster Agglomeration: Demonstration of a Kinetic Method That Allows Monitoring of All Three Phases of Nanocluster Formation and Aging

Autor: Brooks J. Hornstein and, Richard G. Finke

Publikováno v: Chemistry of Materials. 16:139-150

A kinetic method following the development, and then the loss, of catalytic activity is used to monitor the nucleation, growth, and then pyridine or acetonitrile-induced agglomeration (also called aggregation, coagulation, or flocculation) of modern,

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::40c013108b43694fe4c98240858aa466
https://doi.org/10.1021/cm034585i

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The Kinetics and Mechanism of the Ferrate(VI) Oxidation of Hydroxylamines

Autor: Michael D. Johnson, Brooks J. Hornstein

Publikováno v: Inorganic Chemistry. 42:6923-6928

Aqueous solutions of potassium ferrate(VI) cleanly and rapidly oxidize hydroxylamine to nitrous oxide, N-methylhydroxylamine to nitrosomethane, N-phenylhydroxylamine to nitrosobenzene, and O-methylhydroxylamine to methanol and nitrogen. The kinetics

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::db974f795fa78511d719e21116475bd5
https://doi.org/10.1021/ic020705x

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Transition-Metal Nanocluster Catalysts: Scaled-up Synthesis, Characterization, Storage Conditions, Stability, and Catalytic Activity before and after Storage of Polyoxoanion- and Tetrabutylammonium-Stabilized Ir(0) Nanoclusters

Autor: Richard G. Finke, Brooks J. Hornstein and

Publikováno v: Chemistry of Materials. 15:899-909

Previously, we reported the milligram-scale synthesis of tetrabutylammonium- and polyoxoanion (P2W15Nb3O629-)-stabilized Ir(0) nanoclusters. To increase the isolable yield of this nanocluster catalyst material to near 1 g, experiments were carried ou

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::1b1d01b698ac4e99510f2794683e0d3a
https://doi.org/10.1021/cm020856y

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Nanoclusters in Catalysis: A Comparison of CS2 Catalyst Poisoning of Polyoxoanion- and Tetrabutylammonium-Stabilized 40 ± 6 Å Rh(0) Nanoclusters to 5 Rh/Al2O3, Including an Analysis of the Literature Related to the CS2 to Metal Stoichiometry Issue

Autor: Brooks J. Hornstein, John Davis Aiken, Richard G. Finke

Publikováno v: Inorganic Chemistry. 41:1625-1638

It is crucial in metal particle catalysis to know the true number of catalytically active surface sites; without this knowledge it is impossible (i) to know the true turnover frequency (TOF, i.e., the moles of product/(moles of active metal atoms ×

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::2593ece296aaf7b48438048f3842f78f
https://doi.org/10.1021/ic010920y

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Electronic structure of the water oxidation catalyst cis,cis-[(bpy)2(H2O)Ru(III)ORu(III)(OH2)(bpy)2]4+, the blue dimer

Autor: Hershel Jude, Dana M. Dattelbaum, Darla Graff Thompson, Luis M. Baraldo, Javier J. Concepcion, Joe D. Thompson, Jonah W. Jurss, Reginaldo C. Rocha, Estelle L. Lebeau, Kristin M. Omberg, Jennifer M. Butler, Brooks J. Hornstein, Joseph L. Templeton, Jon R. Schoonover, Thomas J. Meyer

Publikováno v: Inorganic chemistry. 51(3)

The first designed molecular catalyst for water oxidation is the "blue dimer", cis,cis-[(bpy) 2(H 2O)Ru IIIORu III(OH 2)(bpy) 2] 4+. Although there is experimental evidence for extensive electronic coupling across the μ-oxo bridge, results of earlie

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::90e2d55c2512d0c5fda331a7bbc07c5f
https://pubmed.ncbi.nlm.nih.gov/22273403

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Kinetics and mechanism of the ferrate oxidation of hydrazine and monomethylhydrazine

Autor: Michael D. Johnson, Brooks J. Hornstein

Publikováno v: Inorganica Chimica Acta. 225:145-150

The kinetics of the reaction of ferrate, FeO42−, and hydrazines in aqueous media have been investigated and the results are reported. It was found that ferrate rapidly oxidizes hydrazine to molecular nitrogen and monomethylhydrazine to molecular ni

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_________::3a770d5501af447a7e4a245d7caabe17
https://doi.org/10.1016/0020-1693(94)04041-9

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Reactivity of an adsorbed Ru(VI)-oxo complex: oxidation of benzyl alcohol

Autor: Brooks J. Hornstein, Dana M. Dattelbaum, Jon R. Schoonover, Thomas J. Meyer

Publikováno v: Inorganic chemistry. 46(20)

The phosphonated ruthenium complex, [Ru(tpy-PO(3)H(2))(OH(2))(3)](2+) (1) (tpy-PO(3)H(2) = 4'-phosphonato-2,2':6',2' '-terpyridine), was synthesized and attached to glass|ITO or glass|ITO|TiO(2) electrodes. After attachment to the metal oxide surface

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::71e3c102c2a115178627821739c1dda5
https://pubmed.ncbi.nlm.nih.gov/17718559

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