Skip to content
AkademScholar

Products

For developers

AkademBasesoonDeveloper API
Journal

Solid State Ionics

ISSN:
0167-2738
1
h-index
4
Citations
5
Works

Trust signals

1 of 3 signals present

Independent positive signals — not a single “predatory/legitimate” verdict, but a converging picture.

  • DOAJ
    No data
    doaj.org
  • OAK list
    No data
    OAK
  • Valid ISSN
    Present
    ISSN

This is an information label, not an official ruling. A missing signal is not a penalty — a regional journal may simply not be in DOAJ.

Trends over time

Performance over time

Citation overview

Publications (bars) and citations (line) by year

  • Publications
  • Citations
01012199719981999200320102013201620221997: Publications 1, Citations 01998: Publications 1, Citations 01999: Publications 1, Citations 02003: Publications 0, Citations 12010: Publications 0, Citations 22013: Publications 0, Citations 12016: Publications 1, Citations 02022: Publications 1, Citations 0

Citation history

012199719981999200320102013201620221997: Citations 01998: Citations 01999: Citations 02003: Citations 12010: Citations 22013: Citations 12016: Citations 02022: Citations 0

Publication history

01199719981999200320102013201620221997: Publications 11998: Publications 11999: Publications 12003: Publications 02010: Publications 02013: Publications 02016: Publications 12022: Publications 1

h-index evolution

Cumulative h-index by year

01199719981999200320102013201620221997: h-index 01998: h-index 01999: h-index 02003: h-index 12010: h-index 12013: h-index 12016: h-index 12022: h-index 1

Most-cited works

  1. Thermally activated two-level systems in superionic conductors19984 citations
  2. Oxygen permeation of La0.3Sr0.7CoO3âδ19970 citations
  3. Study of the thermoelectric power in amorphous and single crystalline lithium tetraborate–Li2O+2B2O319990 citations
  4. Influence of external compressive stress on the ionic conductivity of melt-quenched lithium silicate (15Li 2 O-85SiO 2 ) glass20160 citations
  5. Facile in-situ synthesis of MnO2-ITO NWs composite for electrochemical supercapacitors20220 citations