Structural analysis, electronic and optical properties of the synthesized Sb<sub>2</sub>S<sub>3</sub>nanowires with small band gap

Validžić, Ivana Lj.; Mitrić, Miodrag; Abazović, Nadica D.; Jokić, Bojan; Milosević, A; Popović, Zoran S.; Vukajlović, Filip R.

doi:10.1088/0268-1242/29/3/035007

Cited by 50 publications

(28 citation statements)

References 39 publications

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“…The reason for this is the low rate mobility of holes compared with electrons. In support of this assertion, experiments and theoretical calculations performed for the synthesized Sb 2 S 3 showed significant differences in the effective masses of an electron and a hole ( m e * = 1.035 m e and m h * = 1.843 m e ) . According to calculations, the effective mass of a hole is much greater, which means that holes are less mobile than electrons.…”

Section: Resultsmentioning

confidence: 81%

“…There have been no reports in literature so far on the application of synthesized Sb 2 S 3 material even in simple photovoltaic cell devices. On the other hand, we have reported quite a number of experimental and theoretical results on the synthesized amorphous and crystalline Sb 2 S 3 powders , and polyaniline (PANI), one of the most important conductive polymers that has been widely applied in modern technology including solar cells .…”

Section: Introductionmentioning

confidence: 99%

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High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

Janošević

Mitrić

Bundaleski

et al. 2015

Progress in Photovoltaics

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Cu-doped (as p-doped) and Se-doped (as n-doped) Sb 2 S 3 were synthesized from undoped Sb 2 S 3 using a newly developed technique, simple colloidal synthesis method. X-ray diffraction measurements detected no peaks related to any of the Cu and Se compounds in Cu and Se-doped samples. Energy dispersive X-ray analysis, however, confirmed the presence of Cu and Se ions in the doped samples. Diffuse reflectance spectroscopy revealed the optical band gap energy changes because of doping effect, as reported for both the p-type and the n-type material. The valence-band X-ray photoelectron spectroscopy data showed a significant shift in the valence band to higher (Se-doped; +0.53 eV) and a shift to lower (Cu-doped; À0.41 eV) binding energy, respectively, when compared with the undoped sample. We report here on an inexpensive solar cell designed and made entirely of a synthesized material (indium tin oxide/p-doped Sb 2 S 3 + polyaniline (PANI)/amorphous/undoped Sb 2 S 3 + PANI/n-doped Sb 2 S 3 + PANI/PANI/electrolyte (0.5 M KI + 0.05 M I 2 )/Al). The cell has a high efficiency of 8% to 9% at a very low light intensity of only 5% sun, which makes it particularly suitable for indoor applications. As found, the cell performance at the intensity of 5% sun is governed by high shunt resistance (R SH ) only, which satisfies standard testing conditions. At higher light intensities (25% sun), however, the cell exhibits lower but not insignificant efficiency (around 2%) governed by both the series (R S ) and the R SH . Minimal permeability in the UV region (up to 375 nm) and its almost constant value in the visible and the NIR region at low light intensity of 5% sun could be the reasons for higher cell efficiency.

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Section: Resultsmentioning

confidence: 81%

Section: Introductionmentioning

confidence: 99%

High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

Janošević

Mitrić

Bundaleski

et al. 2015

Progress in Photovoltaics

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“…In our previous papers, lots of attention have been devoted to investigation and characterization of electronic properties of synthesized undoped and doped Sb 2 S 3 films for application in solar cells . Therefore, in this article, we will look back on that characteristics, but we will do the same new ones.…”

Section: Resultsmentioning

confidence: 99%

“…For Sb 2 S 3 ‐based hybrid solar cell, 3 different Sb 2 S 3 powders (p‐, undoped‐, and n‐ Sb 2 S 3 ) were synthesized and their detail experimental procedure has been described in previous studies …”

Section: Methodsmentioning

confidence: 99%

“…Mostly, the thin films that are made from Sb 2 S 3 were derived from solutions depending on whether dye sensitized or photo‐electrochemical solar cells were made . Recently, we reported synthesis for producing amorphous and crystalline, doped and undoped Sb 2 S 3 powders with excellent electronic properties, ie, convenient band gap . Only Mokurala et al synthesized crystalline Sb 2 S 3 nanorods using antimony trichloride, oleylamine, thiourea, hexanethiol acetone, and toluene, by hot‐injection technique and applied it in solar cell .…”

Section: Introductionmentioning

confidence: 99%

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Efficient and novel Sb₂ S₃ based solar cells with chitosan/poly(ethylene glycol)/electrolyte blend

et al. 2017

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Summary We present here a novel solar cell made of ITO/composite p‐doped Sb2S3 + P3HT + PANI+TiO2/amorphous Sb2S3 + P3HT + PANI + TiO2/n‐doped Sb2S3 + P3HT + PANI + TiO2/solid carrier/aluminum as counter electrode. With spraying technique, the layers were deposited and the thickness of films was 1 μm. A new solid carrier of electrolyte was a blend consisted of chitosan (low MW), polyethylene glycol and electrolyte. X‐ray diffraction was recorded to confirm the amorphous nature of the blend. Information about the surface appearance and roughness of a solid carrier dry and soaked in the electrolyte was given by atomic force microscopy. The solar cell was examined at very low and low light intensity (5% and 35% of sun, respectively), and at standard test conditions (100% of sun) using different light sources. The whole cell surface was 7.5 cm2 while the illuminated part was 3 cm2. Obtained results expressed for the illuminated surface showed the highest efficiency of 23.1% at 5% of sun while the efficiency of the cell was 2.9% at 35% of sun and only 0.75% at intensity of 100% of sun.

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Characterization and current–voltage characteristics of solar cells based on the composite of synthesized Sb₂S₃ powder with small band gap and natural dye

Validžić

Janošević

Mitrić

2015

Env Prog and Sustain Energy

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Recently, we have reported the synthesis and optical and electronic properties of Sb 2 S 3 nanowires with small band gap. In order to prove that the synthesized nanowires can be considered as a candidate material for solar cells and in order to obtain I-V characteristics, two very simple cells based on synthesized Sb 2 S 3 nanowires/natural dye composite were fabricated. Exponential growth of the I-V curves after illumination revealed that the cells could work as electricity generators. A better current response was observed for the cell made of synthesized powder with smaller band gap. The efficiency of the cells is quite low, but this was an attempt to create a solar cell in order to better understand the properties of the synthesized Sb 2 S 3 semiconductor and the processes that occur in the cell.

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Structural analysis, electronic and optical properties of the synthesized Sb₂S₃nanowires with small band gap

Cited by 50 publications

References 39 publications

High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

Efficient and novel Sb₂ S₃ based solar cells with chitosan/poly(ethylene glycol)/electrolyte blend

Characterization and current–voltage characteristics of solar cells based on the composite of synthesized Sb₂S₃ powder with small band gap and natural dye

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Structural analysis, electronic and optical properties of the synthesized Sb2S3nanowires with small band gap

Cited by 50 publications

References 39 publications

High‐efficiency Sb2S3‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb2S3

High‐efficiency Sb2S3‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb2S3

Efficient and novel Sb2 S3 based solar cells with chitosan/poly(ethylene glycol)/electrolyte blend

Characterization and current–voltage characteristics of solar cells based on the composite of synthesized Sb2S3 powder with small band gap and natural dye

Contact Info

Product

Resources

About

Structural analysis, electronic and optical properties of the synthesized Sb₂S₃nanowires with small band gap

High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

High‐efficiency Sb₂S₃‐based hybrid solar cell at low light intensity: cell made of synthesized Cu and Se‐doped Sb₂S₃

Efficient and novel Sb₂ S₃ based solar cells with chitosan/poly(ethylene glycol)/electrolyte blend

Characterization and current–voltage characteristics of solar cells based on the composite of synthesized Sb₂S₃ powder with small band gap and natural dye