Skip to content
AkademScholar

Products

For developers

AkademBasesoonDeveloper API
Authors

A. Abbasi

Last known institution:
University of Azad Jammu and Kashmir
ORCID:
0000-0002-1204-2107
4
h-index
0
i10-index
50
Citations
18
Works
Trends over time

Performance over time

Citation overview

Publications (bars) and citations (line) by year

  • Publications
  • Citations
01345051015202020202120222023202420252020: Publications 2, Citations 02021: Publications 3, Citations 02022: Publications 5, Citations 02023: Publications 5, Citations 152024: Publications 2, Citations 202025: Publications 1, Citations 15

Citation history

051015202020202120222023202420252020: Citations 02021: Citations 02022: Citations 02023: Citations 152024: Citations 202025: Citations 15

Publication history

013452020202120222023202420252020: Publications 22021: Publications 32022: Publications 52023: Publications 52024: Publications 22025: Publications 1

h-index evolution

Cumulative h-index by year

013452020202120222023202420252020: h-index 02021: h-index 02022: h-index 02023: h-index 22024: h-index 32025: h-index 4

Most-cited works

  1. Heat and mass transfer characteristics of Al <sub>2</sub> O <sub>3</sub> /H <sub>2</sub> O and (Al <sub>2</sub> O <sub>3</sub> +Ag)/H <sub>2</sub> O nanofluids adjacent to a solid sphere: A theoretical study20241 citations
  2. Thermal decomposition of hybrid nanofluid confined by radiated curved stagnated surface capturing partial slip effects20230 citations
  3. Coupled heat and mass transfer mathematical study for lubricated non-Newtonian nanomaterial conveying oblique stagnation point flow: A comparison of viscous and viscoelastic nanofluid model20230 citations
  4. Non-similar modeling and numerical simulations of microploar hybrid nanofluid adjacent to isothermal sphere20230 citations
  5. Comparative thermal examination of water conveying aluminum oxide, copper and nickel nanoparticles subject to stagnation point flow20240 citations