ADVANCED MATERIALS - Journal - Bridge of Knowledge

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ADVANCED MATERIALS

ISSN:

0935-9648

eISSN:

1521-4095

Disciplines
(Field of Science):

  • architecture and urban planning (Engineering and Technology)
  • automation, electronics, electrical engineering and space technologies (Engineering and Technology)
  • 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 )
  • forestry (Agricultural sciences)
  • biotechnology (Natural sciences)
  • chemical sciences (Natural sciences)
  • physical sciences (Natural sciences)

Ministry points: Help

Ministry points - current year
Year Points List
Year 2024 200 Ministry scored journals list 2024
Ministry points - previous years
Year Points List
2024 200 Ministry scored journals list 2024
2023 200 Ministry Scored Journals List
2022 200 Ministry Scored Journals List 2019-2022
2021 200 Ministry Scored Journals List 2019-2022
2020 200 Ministry Scored Journals List 2019-2022
2019 200 Ministry Scored Journals List 2019-2022
2018 45 A
2017 45 A
2016 45 A
2015 45 A
2014 45 A
2013 45 A
2012 45 A
2011 45 A
2010 40 A

Model:

Hybrid

Points CiteScore:

Points CiteScore - current year
Year Points
Year 2023 43
Points CiteScore - previous years
Year Points
2023 43
2022 45.5
2021 47.7
2020 45.6
2019 41.3
2018 34.1
2017 32.5
2016 30.1
2015 30.6
2014 26.4
2013 25.1
2012 22
2011 18

Impact Factor:

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total: 5

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Catalog Journals

Year 2024
Year 2022
  • Light intensity analysis of photovoltaic parameters for perovskite solar cells
    Publication

    - ADVANCED MATERIALS - Year 2022

    The number of publications on perovskite solar cells (PSC) continues to grow exponentially. Although the efficiency of PSC is exceeded 25.5%, not every research laboratory can reproduce this result or even pass the border of 20%. Unfortunately, it is not always clear which dominating mechanism is responsible for the performance drop. Here, we develop a simple method of light intensity analysis of JV parameters allowing the understanding...

    Full text available to download

Year 2020
Year 2015
  • Tailoring Graphene to Achieve Negative Poisson's Ratio Properties
    Publication

    - ADVANCED MATERIALS - Year 2015

    Graphene can be made auxetic through the introduction of vacancy defects. This results in the thinnest negative Poisson's ratio material at ambient conditions known so far, an effect achieved via a nanoscale de-wrinkling mechanism that mimics the behavior at the macroscale exhibited by a crumpled sheet of paper when stretched.

    Full text to download in external service

Year 2007

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