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Chemistry of Materials (CM)

Publisher :

American Chemical Society (ASC)

Scopus Profile
Peer reviewed only
Scopus Profile
Open Access
  • chemistry
  • chemical engineering
  • materials science
e-ISSN :

1520-5002

Issue Frequency :

Monthly

p-ISSN :

0897-4756

Est. Year :

1989

Mobile :

8002275558

DOI :

YES

Country :

United States

Language :

English

APC :

YES

Impact Factor Assignee :

Google Scholar

Email :

eic@ami.acs.org

Journal Descriptions

Chemistry of Materials is a biweekly hybrid journal devoted to the publication of original contributions on forefront, fundamental research at the interface of chemistry, chemical engineering, and materials science. Both theoretical and experimental studies which focus on preparation or understanding of materials with unusual or useful properties are relevant. Research areas of interest include, but are not limited to: Solid-state chemistry, organic, inorganic and polymer chemistry directed to developing materials with novel optical, electrical, magnetic, catalytic, and mechanical properties, among others Fabrication and processing of electronic, magnetic, or optical materials and devices, including thin films by chemical vapor or solution deposition Design, synthesis, investigation and application of polymeric and molecular precursors to solid-state inorganic materials Preparation and study of biomaterials, nanomaterials, composites, catalysts, liquid crystals, coatings, thin films, interfaces, and self-organized molecular assemblies Materials for sustainability, energy, environmental, and biomedical applications


Chemistry of Materials (CM) is :

International, Peer-Reviewed, Open Access, Refereed, chemistry, chemical engineering, materials science , Online or Print, Monthly Journal

UGC Approved, ISSN Approved: P-ISSN - 0897-4756, E-ISSN - 1520-5002, Established in - 1989, Impact Factor

Provide Crossref DOI

Not indexed in Scopus, WoS, DOAJ, PubMed, UGC CARE

Indexing

Publications of CM

  • dott image December, 2024

Mg Alloying in SnTe Facilitates Valence Band Convergence and Optimizes Thermoelectric Properties

SnTe, a lead-free rock-salt analogue of PbTe, having valence band structure similar to PbTe, recently has attracted attention for thermoelectric heat to electricity generation. However, pris...

  • dott image December, 2017

Low Thermal Conductivity and High Thermoelectric Performance in Sb and Bi Codoped GeTe: Complementary Effect of Band Convergence and Nanostructuring

Complementary and beneficial effects of Sb and Bi codoping in GeTe are shown to generate high thermoelectric figure of merit, zT, of 1.8 at 725 K in Ge1-x-yBixSbyTe samples. Sb and Bi codopi...

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