Hydrogen evolution from neutral water under aerobic conditions catalyzed by cobalt microperoxidase-11.
about
Multidisciplinary approaches to solar hydrogenA Designed Metalloenzyme Achieving the Catalytic Rate of a Native Enzyme.Hole-Accepting-Ligand-Modified CdSe QDs for Dramatic Enhancement of Photocatalytic and Photoelectrochemical Hydrogen Evolution by Solar Energy.Supramolecular Porphyrin Cages Assembled at Molecular-Materials Interfaces for Electrocatalytic CO Reduction.Sesterterpene ophiobolin biosynthesis involving multiple gene clusters in Aspergillus ustus.Light-Driven Hydrogen Evolution by Nickel-Substituted Rubredoxin.Structure and Catalysis of Fe(III) and Cu(II) Microperoxidase-11 Interacting with the Positively Charged Interfaces of Lipids.Graphene-Supported Pyrene-Modified Cobalt Corrole with Axial Triphenylphosphine for Enhanced Hydrogen Evolution in pH 0-14 Aqueous Solutions.Development of air-stable hydrogen evolution catalysts.Cu(iii)triarylcorroles with asymmetric push-pull meso-substitutions: tunable molecular electrochemically catalyzed hydrogen evolution.Amorphous carbon supported MoS₂ nanosheets as effective catalysts for electrocatalytic hydrogen evolution.Design of Redox-Active Peptides: Towards Functional Materials.Oxygen-Dependent Photocatalytic Water Reduction with a Ruthenium(imidazolium) Chromophore and a Cobaloxime Catalyst.Biological components and bioelectronic interfaces of water splitting photoelectrodes for solar hydrogen production.A water-soluble glucose-functionalized cobalt(III) complex as an efficient electrocatalyst for hydrogen evolution under neutral conditions.Cobalt corroles with phosphonic acid pendants as catalysts for oxygen and hydrogen evolution from neutral aqueous solution.Totally synthetic microperoxidase-11.Cobaloxime anchored MoS2 nanosheets as electrocatalysts for the hydrogen evolution reaction
P2860
Q26824578-477F8848-563E-4FCB-8FFF-B08B58492873Q36364991-6F81A999-3C3F-472C-AA4E-E539580B2C20Q37337254-8467D87B-9D8E-4C59-AE5B-E1E8955DBBBCQ42239963-184B445F-392C-42D3-8CCD-69EABF82A60EQ42574862-B88E8506-7DCA-4DC8-8819-451E4CCE7B5BQ45940132-CB46D432-699C-4069-A5B0-A7C96150373EQ46303484-48DF5BD3-5801-427D-97D0-787442562EDDQ47848475-BF3519E7-82ED-4718-9A1D-B1926B7299C4Q47997780-609154A8-E6B7-45F7-9CAA-7C545654C6DCQ50875216-E48F28F4-707D-4B11-831C-3C92DC210EBCQ51064724-32DB0326-0690-46EE-ADDB-DA2A61AB689BQ51152149-93516470-DE85-4676-9DA0-C79EC3DABFF7Q53114982-BA8517BB-2BCB-4C4E-9244-7FAE863533D1Q53361255-6CA15B0E-8670-4A50-AD7D-1B8347C38112Q53364601-933D7A81-A619-402D-B021-EEF62D52ECDBQ53777151-BBD7D279-8D5C-48CA-9ECE-2CD49A6B135FQ55342025-7712D980-4E80-4ADE-AD60-C8A51DCD48A5Q58338116-8AAD0022-9F60-4769-88C6-7882F6E2FB97
P2860
Hydrogen evolution from neutral water under aerobic conditions catalyzed by cobalt microperoxidase-11.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@en
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@nl
type
label
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@en
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@nl
prefLabel
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@en
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@nl
P356
P1476
Hydrogen evolution from neutra ...... by cobalt microperoxidase-11.
@en
P2093
Banu Kandemir
Jesse G Kleingardner
P356
10.1021/JA406818H
P407
P50
P577
2013-12-23T00:00:00Z