APL Materials - Journal - Bridge of Knowledge

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APL Materials

ISSN:

2166-532X

Disciplines
(Field of Science):

  • biomedical engineering (Engineering and Technology)
  • civil engineering, geodesy and transport (Engineering and Technology)
  • materials engineering (Engineering and Technology)
  • mechanical engineering (Engineering and Technology)
  • medical biology (Medical and Health Sciences )
  • pharmacology and pharmacy (Medical and Health Sciences )
  • biotechnology (Natural sciences)
  • chemical sciences (Natural sciences)

Ministry points: Help

Ministry points - current year
Year Points List
Year 2024 100 Ministry scored journals list 2024
Ministry points - previous years
Year Points List
2024 100 Ministry scored journals list 2024
2023 100 Ministry Scored Journals List
2022 100 Ministry Scored Journals List 2019-2022
2021 100 Ministry Scored Journals List 2019-2022
2020 100 Ministry Scored Journals List 2019-2022
2019 100 Ministry Scored Journals List 2019-2022
2018 35 A
2017 35 A
2016 35 A
2015 30 A

Model:

Open Access

Points CiteScore:

Points CiteScore - current year
Year Points
Year 2023 9.6
Points CiteScore - previous years
Year Points
2023 9.6
2022 11.3
2021 8.6
2020 6.5
2019 6.6
2018 7.2
2017 7.8
2016 6.5
2015 4.1
2014 1.5
2013 0.7

Impact Factor:

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Sherpa Romeo:

https://v2.sherpa.ac.uk/id/publication/29236

Papers published in journal

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total: 3

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Catalog Journals

Year 2022
  • What is in a name: Defining “high entropy” oxides
    Publication

    - APL Materials - Year 2022

    ABSTRACT High entropy oxides are emerging as an exciting new avenue to design highly tailored functional behaviors that have no traditional counterparts. Study and application of these materials are bringing together scientists and engineers from physics, chemistry, and materials science. The diversity of each of these disciplines comes with perspectives and jargon that may be confusing to those outside of the individual fields,...

    Full text available to download

Year 2019
  • Dirac fermions and possible weak antilocalization in LaCuSb2
    Publication

    - APL Materials - Year 2019

    Layered heavy-metal square-lattice compounds have recently emerged as potential Dirac fermion materials due to bonding within those sublattices. We report quantum transport and spectroscopic data on the layered Sb square-lattice material LaCuSb2. Linearly dispersing band crossings, necessary to generate Dirac fermions, are experimentally observed in the electronic band structure observed using angle-resolved photoemission spectroscopy,...

    Full text available to download

Year 2015
  • Ferro- and antiferro-magnetism in (Np, Pu)BC
    Publication

    - APL Materials - Year 2015

    Two new transuranium metal boron carbides, NpBC and PuBC, have been synthesized. Rietveld refinements of powder XRD patterns of {Np,Pu} BC confirmed in both cases isotypism with the structure type of UBC. Temperature dependent magnetic susceptibility data reveal antiferromagnetic ordering for PuBC below T-N = 44 K, whereas ferromagnetic ordering was found for NpBC below T-C = 61 K. Heat capacity measurements prove the bulk character...

    Full text available to download

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