I have published up to 40 International publications, including Papers and Book Chapters with citations up to 930 with an h-index of 20 (Google Scholar) which includes: 1 Nano Energy Journal (Impact factor 19.069), 1 Chemical Engineering Journal (Impact factor 16.744), 1 Journal of Materials Chemistry A (Impact factor 14.511), 2 Journal of Power Sources (Impact factor 9.794), 1 Material Today Advances (Impact factor 9.918), 1 Journal of Corrosion Science (Impact factor 8.36), 1 Electrochimica Acta (Impact factor 7.336), 2 ACS applied energy materials (Impact factor 6.959), 1 Catalysis Today (Impact factor 6.766), 1 RSC Catalysis Science and Technology (Impact factor 6.177), 1 Sustainable Energy & Fuels (Impact factor 6.813), 2 Journal of Physics: Energy (Impact factor 6.967), 2 Applied Surface Science (Impact Factor 7.392), 1 Journal journal of surface and interface (Impact Factor 6.2), 1 international journal of hydrogen energy (Impact Factor 7.139). APS Physical Review Materials (Impact Factor 3.98).

Upcoming/Preprints 

  1. N. Khossossi, et al. Unveiling the Catalytic Potential of Two-Dimensional Boron Nitride in Lithium-Sulfur Batteries,  (Under review, Chemical Engineering Journal)
  2. N. Khossossi, et al. 2D Ge2Se2P4 Monolayer: A Versatile Photocatalyst for Sustainable Water Splitting, (Under Review, ACS Journal of Physical Chemistry C) 
  3.  N. Khossossi, et al. Harnessing Intrinsic Electric Fields in 2D Janus MoOX (X=S, Se, and Te) Monolayers for Enhanced Photocatalytic Hydrogen Evolution (Under review, Int. J. Hydrogen Energy) 
  4.  Deobrat Singh, N. Khossossi, et al. High-performance two-dimensional type-II MoSi2N4/As vdW heterostructure for photovoltaic solar cells
  5. N. Khossossi, et al,. Solvation and Thermodynamics at the Cathode-Electrolyte Interface in Li-S Batteries Using 2D Carbon Phosphide as a Sulfur Host for Cathodes. 
  6. N. Khossossi, and Poulumi Dey,. Robust few-shot machine learning assisted high-throughput screening of 2D Septuple-Atomic-Layer supported single-atom catalysts for hydrogen production. 
  7. T. Zafer,  P. Dey, and N. Khossossi. Machine Learning-Driven Design of Single Atom Catalysts on Nanoporous Graphyne for Electrochemical Hydrogen Production.

Selected Published Articles

0

Article

Computational insights into the superior efficiency of Cs2AgGa(Cl,Br)6 double halide perovskite solar cells

Kibbou, M., Haman, Z., Khossossi, N., Essaoudi, I., Ainane, A. & Ahuja, R.

10/10/2023

Surfaces and Interfaces

2

Citations