Influence of tin precursor concentration on physical properties of nebulized spray deposited tin disulfide thin films

Anitha, N.; Anitha, M.; Mohamed, J. Raj; Valanarasu, S.; Amalraj, L.

doi:10.1080/21870764.2018.1450026

Cited by 23 publications

(3 citation statements)

References 46 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Besides, SnS 2 possesses a layered structure, similar to CdI 2 , in which the tin atoms are located between two hexagonally close-packed sulfur slabs to form a three-atom sandwich structure. 153–160…”

Section: Energy Storage In Metal Sulfides-based Capacitorsmentioning

confidence: 99%

Potential transition and post-transition metal sulfides as efficient electrodes for energy storage applications: review

et al. 2022

View full text Add to dashboard Cite

show abstract

Section: Energy Storage In Metal Sulfides-based Capacitorsmentioning

confidence: 99%

Potential transition and post-transition metal sulfides as efficient electrodes for energy storage applications: review

et al. 2022

View full text Add to dashboard Cite

show abstract

“…According to the Raman spectra and HRTEM images, the Sn x S y phase predominantly transforms into the SnS phase upon 800 V-EBI treatment with high crystallinity. In addition, the SnS phase has a higher absorption coefficient at 450 nm than SnS 2 [49,50]. Relatively low crystallinity with ambiguous grain boundaries and structural defects of the 600 V-EBI sample leads to inferior performance, as shown in figure S2(a).…”

Section: Properties Of Snxsymentioning

confidence: 99%

Vastly enhanced photoresponsivities of phase-controlled tin sulfide thin films

Kwon

Kim

et al. 2020

Nanotechnology

View full text Add to dashboard Cite

Herein, we reveal extraordinary enhancements in the photoresponsivities of tin sulfide (Sn x S y ) grown on SiO 2 /Si wafers through post-phase transformations induced by electron beam irradiation (EBI) and crystallization. Amorphous Sn x S y thin films were formed by room-temperature sputtering, and as-deposited films were subsequently transformed into hexagonal SnS 2 and orthorhombic SnS phases by EBI at 600 and 800 V respectively, for only one minute. The use of a low-energy electron beam was sufficient to fabricate a Sn x S y photodetector, with no additional heating required. Less than 10 nm thick Sn x S y films with well-defined layer structures and stable surface morphologies were obtained through EBI at 600 and 800 V. The resulting phase-controlled SnS thin-film photodetector prepared using 800 V-EBI exhibited a 40 000-fold increase in photoresponsivity; when illuminated by a 450 nm light source, the active SnS-layer-containing photodetector demonstrated a photoresponsivity of 33.2 mA W −1 .

show abstract

“…In particular, the SnS2 has attracted considerable interest of researchers in recent years due to ntype electrical conductivity (Kim et al, 2018), non-toxic (Dong et al, 2018), wide band gap (Huanga et al, 2017), high absorption coefficient , high surface activity (Kumar et al, 2019), earth-abundant and cost-effective properties (Hu et al, 2019). Therefore, this material with these properties is suitable some critical opto-electronic application such as optical and transparent gas sensor for sensing NH3, H2S and alcohols (Anitha et al, 2018) and an buffer layer in the n-CdS/p-SnS heterojunction solar cell instead of the CdS toxic-layer . Furthermore, the Sn/S ratio allows change in conductivity type as p-type SnS and n-type SnS2.…”

Section: Introductionmentioning

confidence: 99%

Electrical characterization and solar light sensitivity of SnS2/n-Si junction

Baltakesmez

2020

Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi

View full text Add to dashboard Cite

In this study, the SnS2 thin film deposited by spray pyrolysis technique has been analyzed by XRD, SEM and UV-visible characterization techniques to investigate of structural, morphological and optical properties. The thin film has dominant ( 001) and ( 002) crystallographic planes, compact grain-like morphology with uniform and good coverage surface and 2.42 eV band gap. The Sn/SnS2/Si/Au-Sb structure has been characterized by electrical measurement. The diode has ideality factor of 1.34 and barrier height of 0.762 eV with reverse-bias current temperature-dependent strongly. In addition, the ITO/SnS2/Si/Au-Sb structure has been characterized by 1.5 AM solar simulator for determine of solar light sensitivity. The diode under 100 mW/cm 2 solar-light source has exhibited 0.24% PCE with Jsc of 1.83 mA/cm 2 , Voc of 0.46 V and FF of 0.28.

show abstract

Influence of tin precursor concentration on physical properties of nebulized spray deposited tin disulfide thin films

Cited by 23 publications

References 46 publications

Potential transition and post-transition metal sulfides as efficient electrodes for energy storage applications: review

Potential transition and post-transition metal sulfides as efficient electrodes for energy storage applications: review

Vastly enhanced photoresponsivities of phase-controlled tin sulfide thin films

Electrical characterization and solar light sensitivity of SnS2/n-Si junction

Contact Info

Product

Resources

About