Shalenov Eo 1
1. First principles investigations of Lithium based hydrides LiXH 3(X=Al, Ga, In) for hydrogen storage applications
2. Modeling and Comparative Performance Analysis of Perovskite Solar Cells with Planar or Nanorod Sn O2 Electron-Transport Layers
3. ab-initio insights of BeXH3(X=In,Sn,Sb) hydrides for structural, phonon, electronic, thermodynamic and hydrogen storage properties
4. Revealing the improved elasto-mechanical, opto-electronic, thermodynamic and thermoelectric properties of double perovskites Rb2TlAF6(A = Ir, Rh): A DFT analysis
5. Structural, Elastic, Mechanical, Electronic and Optical Properties of TlSnX3(X=Cl,Br,I) for Sustainable Energy Applications
6. Computer simulation and performance analysis of metal–semiconductor–metal back-contact perovskite solar cells
7. Electron-atom interactions in dense semiclassical helium plasma
8. Study of the electron-atom collisions in dense semiclassical plasma of noble gases
9. Passivation of perovskite layer surface states with pyridine in flexible and printed perovskite solar cells
10. Stepping toward Portable Optoelectronics with SnO2 Quantum Dot-Based Electron Transport Layers
11. First principles investigations on physical properties and phonon-mediated superconductivity in CsTaC
12. Impact of Quantum Non-Locality and Electronic Non-Ideality on the Shannon Entropy for Atomic States in Dense Plasma
13. Fabrication of Flexible Quasi-Interdigitated Back-Contact Perovskite Solar Cells
14. Coulomb logarithm and the Dreicer field in a dense semiclassical plasma
15. Effective interaction potentials and the scattering cross sections of the Lorentzian dense semiclassical plasma particles
16. Bound states of the hydrogen atom in high-density plasmas
17. Insights on Desired Fabrication Factors from Modeling Sandwich and Quasi-Interdigitated Back-Contact Perovskite Solar Cells
18. Performance evaluation of different designs of back-contact perovskite solar cells
19. Positron Production by Runaway Electrons in Lorentzian Plasmas
20. Dual-Mode Molecular Regulation of Perovskite Crystallization Enables Efficient and Stable FAPbI3 Solar Cells and Modules
21. Elucidating the hysteresis effect in printed flexible perovskite solar cells with SnO2 quantum dot- and PCBM-based electron transport layers
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