Silicon Electrochemistry in Molten Salts

Article Properties
  • Language
    English
  • DOI (url)
    10.1021/acs.chemrev.9b00428
  • Publication Date
    2019/12/30
  • Journal
    Chemical Reviews
  • Indian UGC (journal)
  • Refrences
    156
  • Citations
    64
  • Eimutis Juzeliu̅nas Centre for Physical Sciences and Technology, Saulėtekio Str. 3, LT-10257 Vilnius, LithuaniaDepartment of Materials Science and Metallurgy, University of Cambridge, 27 Charles Babbage Road, CB3 0FS Cambridge, United Kingdom ORCID
  • Derek J. Fray Centre for Physical Sciences and Technology, Saulėtekio Str. 3, LT-10257 Vilnius, LithuaniaDepartment of Materials Science and Metallurgy, University of Cambridge, 27 Charles Babbage Road, CB3 0FS Cambridge, United Kingdom
Cite
Juzeliu̅nas Eimutis, and Derek J. Fray. “Silicon Electrochemistry in Molten Salts”. Chemical Reviews, vol. 120, no. 3, 2019, pp. 1690-09, https://doi.org/10.1021/acs.chemrev.9b00428.
Juzeliu̅nas E., & Fray, D. J. (2019). Silicon Electrochemistry in Molten Salts. Chemical Reviews, 120(3), 1690-1709. https://doi.org/10.1021/acs.chemrev.9b00428
Juzeliu̅nas Eimutis, and Derek J. Fray. “Silicon Electrochemistry in Molten Salts”. Chemical Reviews 120, no. 3 (2019): 1690-1709. https://doi.org/10.1021/acs.chemrev.9b00428.
Juzeliu̅nas E, Fray DJ. Silicon Electrochemistry in Molten Salts. Chemical Reviews. 2019;120(3):1690-709.
Journal Categories
Science
Chemistry
Science
Chemistry
General
Including alchemy
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Self‐Assembly of Silicon Nanotubes Driven by a Biphasic Transition from the Natural Mineral Montmorillonite in Molten Salt Electrolysis

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Citations Analysis
Category Category Repetition
Science: Chemistry55
Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials32
Science: Chemistry: Physical and theoretical chemistry23
Technology: Chemical technology18
Science: Chemistry: General. Including alchemy17
Science: Physics10
Technology: Mining engineering. Metallurgy8
Technology: Chemical technology: Chemical engineering6
Technology: Mechanical engineering and machinery: Renewable energy sources5
Science: Chemistry: Analytical chemistry4
Social Sciences: Industries. Land use. Labor: Special industries and trades: Energy industries. Energy policy. Fuel trade4
Science: Science (General)3
Technology: Chemical technology: Industrial electrochemistry2
Science2
Technology: Engineering (General). Civil engineering (General): Mechanics of engineering. Applied mechanics1
Technology: Engineering (General). Civil engineering (General)1
Science: Biology (General)1
Technology: Technology (General): Industrial engineering. Management engineering1
Science: Physics: Atomic physics. Constitution and properties of matter1
Technology: Chemical technology: Clay industries. Ceramics. Glass1
Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power1
Technology: Electrical engineering. Electronics. Nuclear engineering1
Technology: Environmental technology. Sanitary engineering1
Technology: Chemical technology: Chemicals: Manufacture, use, etc.1
The category Science: Chemistry 55 is the most commonly referenced area in studies that cite this article. The first research to cite this article was titled Interactions of molten salts with cathode products in the FFC Cambridge Process and was published in 2020. The most recent citation comes from a 2024 study titled A Sustainable Molten Salt Leaching-Electrodeposition Route Toward Converting Rice Husks into Functional Silicon Nanowires and Porous Carbon. This article reached its peak citation in 2022, with 20 citations. It has been cited in 44 different journals, 22% of which are open access. Among related journals, the Journal of The Electrochemical Society cited this research the most, with 5 citations. The chart below illustrates the annual citation trends for this article.
Citations used this article by year