Colloidal quantum dots and two‐dimensional material heterostructures for photodetector applications
Photodetectors (PDs) are optoelectronic devices that convert optical signals into electrical
responses. Recently, there has been a tremendous increase in research interest in PDs …
responses. Recently, there has been a tremendous increase in research interest in PDs …
Hybrid 0D–2D WS2-QDs (n)/SnS (p) as Distributed Heterojunctions for Highly Responsive Flexible Broad-Band Photodetectors
V Selamneni, P Anand P, A Singh… - ACS Applied Electronic …, 2021 - ACS Publications
Even though there are reports on broad-band photodetectors, the issue that remains
unaddressed is the low responsivity value while increasing the spectral range. This report …
unaddressed is the low responsivity value while increasing the spectral range. This report …
Preparation and morphological studies of tin sulfide nanoparticles and use as efficient photocatalysts for the degradation of rhodamine B and phenol
Tin sulfide nanoparticles were prepared from tin (ii) dithiocarbamate complexes: bis
(benzylmethyl dithiocarbamate) tin (ii)(SnS1), bis (dibenzyl dithiocarbamato) tin (ii)(SnS2) …
(benzylmethyl dithiocarbamate) tin (ii)(SnS1), bis (dibenzyl dithiocarbamato) tin (ii)(SnS2) …
One-Step Vapor Transport Deposition for Tuning the Photovoltaic Performance of SnSxSe1–x Solar Cells: Analysis of the Improved Voc and Jsc
Binary tin chalcogenides (SnS and SnSe) are investigated extensively for thin-film solar cells
(TFSCs). The conventional sulfo-selenization of elemental Sn follows multiple and rigorous …
(TFSCs). The conventional sulfo-selenization of elemental Sn follows multiple and rigorous …
Vapor‐Transport‐Deposited Orthorhombic‐SnSe Thin Films: A Potential Cost‐Effective Absorber Material for Solar‐Cell Applications
The power‐conversion efficiencies of orthorhombic tin selenide (α‐SnSe)‐based thin‐film
solar cells (TFSCs) are very low—less than 1% in most cases—due to the poor crystallinity …
solar cells (TFSCs) are very low—less than 1% in most cases—due to the poor crystallinity …
Performance Enhancement of SnS Solar Cell with Tungsten Disulfide Electron Transport Layer and Molybdenum Trioxide Hole Transport Layer
Herein, a new heterojunction photovoltaic (PV) device is designed by incorporating
molybdenum trioxide (MoO3) as a hole transport layer (HTL), tin sulfide (SnS) as an …
molybdenum trioxide (MoO3) as a hole transport layer (HTL), tin sulfide (SnS) as an …
Enhancing the photovoltaic properties of SnS-Based solar cells by crystallographic orientation engineering
Tin monosulfide (SnS) is a promising light-harvesting material for solar cell applications,
owing to its potential for large-scale production, cost-effectiveness, eco-friendly source …
owing to its potential for large-scale production, cost-effectiveness, eco-friendly source …
Electronic gap stability of two-dimensional tin monosulfide phases: Towards optimal structures for electronic device applications
It is well known that tin monosulfide is a potential environment-friendly solar cell material that
maximizes light-energy conversion efficiency, given its band gap at the peak of the solar …
maximizes light-energy conversion efficiency, given its band gap at the peak of the solar …
Impact of post deposition treatment on optoelectrical and microstructural properties of tin sulfide thin film for photovoltaic applications
Tin sulfide (SnS) has attracted significant interest due to its advantageous optoelectrical
characteristics and abundant presence in nature. Post-deposition treatments (PDTs) are …
characteristics and abundant presence in nature. Post-deposition treatments (PDTs) are …
From thin films to shaped platelets: effects of temperature gradient on SnS synthesis
In this work, we studied the synthesis and properties of SnS thin films and platelets obtained
by vapor phase deposition under controlled pressure. Two morphological types are …
by vapor phase deposition under controlled pressure. Two morphological types are …