Cargando…

Catalysis for e-Chemistry: Need and Gaps for a Future De-Fossilized Chemical Production, with Focus on the Role of Complex (Direct) Syntheses by Electrocatalysis

[Image: see text] The prospects, needs and limits in current approaches in catalysis to accelerate the transition to e-chemistry, where this term indicates a fossil fuel-free chemical production, are discussed. It is suggested that e-chemistry is a necessary element of the transformation to meet the...

Descripción completa

Detalles Bibliográficos
Autores principales:	Papanikolaou, Georgia, Centi, Gabriele, Perathoner, Siglinda, Lanzafame, Paola
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	American Chemical Society 2022
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8902748/ https://www.ncbi.nlm.nih.gov/pubmed/35280435 http://dx.doi.org/10.1021/acscatal.2c00099

Ejemplares similares

Comparing Molecular Mechanisms in Solar NH(3) Production and Relations with CO(2) Reduction
por: Mallamace, Domenico, et al.
Publicado: (2020)

Advanced (photo)electrocatalytic approaches to substitute the use of fossil fuels in chemical production
por: Centi, Gabriele, et al.
Publicado: (2023)

The Role of Substrate Surface Geometry in the Photo-Electrochemical Behaviour of Supported TiO(2) Nanotube Arrays: A Study Using Electrochemical Impedance Spectroscopy (EIS)
por: De Pasquale, Luana, et al.
Publicado: (2023)

Editorial: Defect chemistry in electrocatalysis
por: Yan, Dafeng, et al.
Publicado: (2022)

Interfacial Chemistry in the Electrocatalytic Hydrogenation of CO(2) over C-Supported Cu-Based Systems
por: Gianolio, Diego, et al.
Publicado: (2023)

Operando Reflectance Microscopy on Polycrystalline Surfaces in Thermal Catalysis, Electrocatalysis, and Corrosion
por: Pfaff, Sebastian, et al.
Publicado: (2021)

Bridging oxidase catalysis and oxygen reduction electrocatalysis by model single-atom catalysts
por: Lu, Xiangyu, et al.
Publicado: (2022)

Peptide Gelators to Template Inorganic Nanoparticle Formation
por: Bellotto, Ottavia, et al.
Publicado: (2021)

Bridging the Gap in the Mechanistic Understanding of Electrocatalysis via In Situ Characterizations
por: Malkani, Arnav S., et al.
Publicado: (2020)

Constant chemical potential approach for quantum chemical calculations in electrocatalysis
por: Schneider, Wolfgang B, et al.
Publicado: (2014)

Chemistry of porphyrins in fossil plants and animals
por: Tahoun, Mariam, et al.
Publicado: (2021)

Unprotected and interconnected Ru(0) nano-chain networks: advantages of unprotected surfaces in catalysis and electrocatalysis
por: Anantharaj, S., et al.
Publicado: (2016)

Switching Co/N/C Catalysts for Heterogeneous Catalysis and Electrocatalysis by Controllable Pyrolysis of Cobalt Porphyrin
por: Wu, Zhen-Yu, et al.
Publicado: (2019)

Catalysis in chemistry and enzymology
por: Jencks, William P. (William Platt), 1927-2007
Publicado: (1987)

Editorial: Carbon Catalysis: Focus on Sustainable Chemical Technology
por: Liu, Zhigang, et al.
Publicado: (2020)

Across the Board: Gabriele Centi on Decoupling Electrocatalytic Reactions to Electrify Chemical Production
por: Centi, Gabriele
Publicado: (2022)

Wet-chemical synthesis of two-dimensional metal nanomaterials for electrocatalysis
por: Li, Zijian, et al.
Publicado: (2021)

Nanosized tungsten carbide synthesized by a novel route at low temperature for high performance electrocatalysis
por: Yan, Zaoxue, et al.
Publicado: (2013)

Platinum nanosheets synthesized via topotactic reduction of single-layer platinum oxide nanosheets for electrocatalysis
por: Takimoto, Daisuke, et al.
Publicado: (2023)

Solid state chemistry in catalysis
por: Grasselli, Robert K, et al.
Publicado: (1985)

Photoredox Catalysis in Organic Chemistry
por: Shaw, Megan H., et al.
Publicado: (2016)

Is Micellar Catalysis Green Chemistry?
por: Fabris, Fabrizio, et al.
Publicado: (2023)

Insights into the electrocatalysis of nitrobenzene using chemically-modified carbon nanotube electrodes
por: Sang, Yutao, et al.
Publicado: (2014)

Electrocatalysis on the nm scale
por: Behm, R Jürgen
Publicado: (2015)

The Influence of Nanoconfinement on Electrocatalysis
por: Wordsworth, Johanna, et al.
Publicado: (2022)

Chemistry glows green with photoredox catalysis
por: Crisenza, Giacomo E. M., et al.
Publicado: (2020)

Integration of plasma and electrocatalysis to synthesize cyclohexanone oxime under ambient conditions using air as a nitrogen source
por: Jia, Shunhan, et al.
Publicado: (2023)

Operando spectroscopy study of the carbon dioxide electro-reduction by iron species on nitrogen-doped carbon
por: Genovese, Chiara, et al.
Publicado: (2018)

From Chemical Curiosities and Trophy Molecules to Uranium-Based Catalysis: Developments for Uranium Catalysis as a New Facet in Molecular Uranium Chemistry
por: Hartline, Douglas R., et al.
Publicado: (2021)

Chemical Structure of Fe–Ni Nanoparticles for Efficient Oxygen Evolution Reaction Electrocatalysis
por: Acharya, Prashant, et al.
Publicado: (2019)

Bioinspired and Bioderived Aqueous Electrocatalysis
por: Barrio, Jesús, et al.
Publicado: (2022)

Intermetallic Nanoarchitectures for Efficient Electrocatalysis
por: Kim, Ho Young, et al.
Publicado: (2022)

Electro-synthesized Co(OH)(2)@CoSe with Co–OH active sites for overall water splitting electrocatalysis
por: Wang, Yin, et al.
Publicado: (2020)

Chemical kinetics and catalysis /
por: Masel, Richard I., 1951-
Publicado: (2001)

Highly Active Palladium-Decorated Reduced Graphene Oxides for Heterogeneous Catalysis and Electrocatalysis: Hydrogen Production from Formaldehyde and Electrochemical Formaldehyde Detection
por: Liu, Xiaogang, et al.
Publicado: (2022)

Electrocatalysis: Electrochemically Synthesized Nanoporous Molybdenum Carbide as a Durable Electrocatalyst for Hydrogen Evolution Reaction (Adv. Sci. 1/2018)
por: Kang, Jin Soo, et al.
Publicado: (2018)

Dating placentalia: Morphological clocks fail to close the molecular fossil gap
por: Puttick, Mark N., et al.
Publicado: (2016)

Coupling Theory to Electrode Design for Electrocatalysis
por: Hickey, David P., et al.
Publicado: (2019)

Revealing the nature of active sites in electrocatalysis
por: Garlyyev, Batyr, et al.
Publicado: (2019)

Editorial: Electrocatalysis on Shape-Controlled Nanoparticles
por: Rodriguez, Paramaconi, et al.
Publicado: (2019)

Cannot write session to /tmp/vufind_sessions/sess_vicpjjff0ijo99kqhq9ou8b3hg