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Energy Advances (EA)

Publisher :

Royal Society of Chemistry

Peer reviewed only icon
Peer reviewed only
Open access journal icon
Open Access
  • multidisciplinary
e-ISSN :

2753-1457

Issue Frequency :

Monthly

Est. Year :

2022

Mobile :

1223420066

DOI :

YES

Country :

United Kingdom

Language :

English

APC :

YES

Impact Factor Assignee :

Google Scholar

Email :

globalexpt@rsc.org

Journal Descriptions

Energy is an exciting, multidisciplinary research area, bringing together chemistry, physics, materials science, engineering, computer science, and techno-economical/ecological evaluation. Energy Advances features cutting-edge science at the forefront of energy technology with particular focus on emerging materials and methods. Topics of interest include, but are not limited to: Batteries, supercapacitors, hybrid devices and other energy storage technologies Bioenergy, biofuels and the biorefinery Carbon capture, storage or utilisation Catalysis and chemical engineering for energy applications Fuel cells Hydrogen production and storage Modelling, machine learning and characterisation for energy materials & systems Solar energy conversion and photovoltaics Energy Advances is a multidisciplinary journal that publishes research across a broad scope of topics, and welcomes work that contributes to developments throughout energy science and related fields.


Energy Advances (EA) is :

International, Peer-Reviewed, Open Access, Refereed, multidisciplinary , Online Monthly Journal

UGC Approved, ISSN Approved: P-ISSN , E-ISSN - 2753-1457, Established in - 2022, Impact Factor

Provide Crossref DOI

Indexed in Scopus, WoS, DOAJ, PubMed

Not indexed in UGC CARE

Indexing

Scopus Logo
Scopus
WoS Logo
WoS
DOAJ Logo
DOAJ

Publications of EA

  • dott image January, 2022

Molybdenum as a versatile dopant in SnTe: a promising material for thermoelectric application

The key to enhancing the thermoelectric performance of SnTe is to engineer its electronic structure by doping. It is essential that the beneficial features are exhibited at the Fermi level s...

  • dott image January, 2022

Halide (X = I, Br, Cl) doping to tune the electronic structure for conversion of Pb0.6Sn0.4Te into a high-performing thermoelectric material

The fabrication of thermoelectric (TE) devices requires both p- and n-type legs with comparable performances. Pb0.6Sn0.4Te, which belongs to the class of topological crystalline insulator (T...

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