MATERIALS LETTERS - Journal - MOST Wiedzy

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MATERIALS LETTERS

ISSN:

0167-577X

eISSN:

1873-4979

Disciplines
(Field of Science):

  • Automation, electronic and electrical engineering (Engineering and Technology)
  • Biomedical engineering (Engineering and Technology)
  • Chemical engineering (Engineering and Technology)
  • Civil engineering and transport (Engineering and Technology)
  • Materials engineering (Engineering and Technology)
  • Mechanical engineering (Engineering and Technology)
  • Environmental engineering, mining and energy (Engineering and Technology)
  • Pharmacology and pharmacy (Medical and Health Sciences )
  • Nutrition and food technology (Agricultural sciences)
  • Chemical sciences (Natural sciences)
  • Physical sciences (Natural sciences)

Ministry points: Help

Ministry points
2020 70 Ministry Scored Journals List 2019
Ministry points
Year Points List
2020 70 Ministry Scored Journals List 2019
2019 70 Ministry Scored Journals List 2019
2018 35 A
2017 35 A
2016 35 A
2015 35 A
2014 30 A
2013 35 A
2012 35 A
2011 35 A
2010 27 A
2009 27 A
2008 27 A

Punkty CiteScore:

Punkty CiteScore
2018 2.99
Punkty CiteScore
Year Points
2018 2.99
2017 2.68
2016 2.51

Impact Factor:

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Publishing policy:

Pre-print
author's version of the article before the review
Post-print
author's version of the article after the review

Status table SHERPA RoMEO

Status table SHERPA RoMEO
RoMEO color Archiving policy
Green can archive pre-prints and post-prints or a version of the publisher
Blue can archive post-prints
Yellow can archive pre-prints
White can not archive any materials
Gray unknown

Filters

total: 4

  • Category
  • Year

Catalog Journals

2020
2019
  • Enhanced photocatalytic activity of transparent carbon nanowall/TiO2 heterostructures
    Publication

    - MATERIALS LETTERS - 2019

    The synthesis of novel tunable carbon-based nanostructure represented a pivotal point to enhance the efficiency of existing photocatalysts and to extend their applicability to a wider number of sustainable processes. In this letter, we describe a transparent photocatalytic heterostructure by growing boron-doped carbon nanowalls (B-CNWs) on quartz, followed by a simple TiO2 sol-gel deposition. The effect on the thickness and boron-doping...

    Full text in external service

2017
2016

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