On the investigation of interface defects of solar cells: lead-based vs lead-free perovskite
Perovskite solar cells (PSCs) have drawn significant consideration as a competing solar cell
technology because of the drastic advance in their power conversion efficiency (PCE) over …
technology because of the drastic advance in their power conversion efficiency (PCE) over …
Highly efficient emerging Ag2BaTiSe4 solar cells using a new class of alkaline earth metal-based chalcogenide buffers alternative to CdS
Abstract Cu2ZnSn (S, Se) 4 is a non-toxic, earth-abundant photovoltaic absorber. However,
its efficiency is limited by a large open circuit voltage (VOC) deficit occurring due to its …
its efficiency is limited by a large open circuit voltage (VOC) deficit occurring due to its …
Effect of interface defects on high efficient perovskite solar cells
In this paper, experimental J–V and external quantum efficiency (EQE) have been validated
by the simulation model to show the improvement of the perovskite (PSK) solar cell (PSC) …
by the simulation model to show the improvement of the perovskite (PSK) solar cell (PSC) …
A comprehensive study on RbGeI3 based inorganic perovskite solar cell using green synthesized CuCrO2 as hole conductor
Though perovskite solar cell (PSC) is achieving an immense 25.7% efficiency within a few
years of extensive research, a shorter life span with organic part and charge transporting …
years of extensive research, a shorter life span with organic part and charge transporting …
Efficiency enhancement of CZTSSe solar cells via screening the absorber layer by examining of different possible defects
This study represents the investigation of earth-abundant and non-toxic CZTSSe absorber
materials in kesterite solar cell by using the Finite Element Method (FEM) with (1) electrical …
materials in kesterite solar cell by using the Finite Element Method (FEM) with (1) electrical …
Influence mechanism of Fe (II/III) do** on the adsorption of methylamine salts on kaolinite surfaces elucidated through DFT calculations
Y Ling, J Chen, F Min, Y Cheng, X Chu, H Shang… - Journal of Molecular …, 2023 - Elsevier
To investigate the effect of Fe (II/III) do** on the microscopic mechanism of methylamine
salt hydrophobic modifiers on kaolinite surfaces, the adsorption characteristics of various …
salt hydrophobic modifiers on kaolinite surfaces, the adsorption characteristics of various …
Effect of defects on high efficient perovskite solar cells
The organic-inorganic hybrid halide perovskite solar cell has been studied theoretically in
this paper. For the validation cases, an experimental case is used for comparison with our …
this paper. For the validation cases, an experimental case is used for comparison with our …
Mechanism research on surface hydration of Fe (II)-doped kaolinite, insights from molecular dynamics simulations
J Chen, Y Ling, F Min, Y Cheng, X Chu… - Journal of Molecular …, 2023 - Elsevier
To investigate the micro-influence mechanism of Fe (II) do** on the surface hydration of
kaolinite, molecular dynamics (MD) simulation method was utilized to simulate the …
kaolinite, molecular dynamics (MD) simulation method was utilized to simulate the …
A modeling study on utilizing low temperature sprayed In2S3 as the buffer layer of CuBaSn(S, Se) solar cells
This study represents the investigation of In2S3 thin films as an electron transport layer in
the CuBaSn (S, Se)-CBT (S, Se) solar cells, which have been deposited using the Chemical …
the CuBaSn (S, Se)-CBT (S, Se) solar cells, which have been deposited using the Chemical …
Theoretical Insights of Degenerate ZrS2 as a New Buffer for Highly Efficient Emerging Thin‐Film Solar Cells
SnS, Sb2Se3, Cu2SnS3, CuSb (S, Se) 2, and Cu2BaSn (S, Se) 4 are emerging as
promising light absorbers for thin‐film photovoltaics due to their extraordinary optoelectronic …
promising light absorbers for thin‐film photovoltaics due to their extraordinary optoelectronic …