Jun-Qi Fan scite author profile

Cu(2)ZnSnSe(4) (CZTSe) nanoparticles with diameters of 200-300 nm were synthesized by one-step solvothermal method without surfactants or templates. The structure, composition and morphology of CZTSe nanoparticles were characterized by XRD, XPS, Raman spectrum, EDS, FESEM and TEM. The results indicated that the nanoparticles were single phase and nearly stoichiometric composition. CZTSe nanoparticles drop-casted onto FTO substrate were used as counter electrode (CE) in dye-sensitized solar cells (DSSCs) for the first time, which exhibited Pt-like electrocatalytic activity for the reduction of I(3)(-) to I(-) in DSSCs. The J-V results demonstrated that the thickness of the film affected the photocurrent density and fill factor remarkably, which resulted from the difference of electrocatalytic sites and resistance with different thickness films. And a best efficiency of 3.85% was obtained by adjusting the film thickness. The work presents a new approach for developing low-cost, facile fabrication CZTSe nanoparticles, and demonstrates CZTSe can be explored as a low-cost alternative for expensive and scare Pt in DSSCs.

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Effect of Highly Ordered Single-Crystalline TiO₂ Nanowire Length on the Photovoltaic Performance of Dye-Sensitized Solar Cells

Zhou

Fan

Wang

et al. 2011

ACS Appl. Mater. Interfaces

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One-dimensional semiconductor nanostructures grown directly onto transparent conducting oxide substrates with a high internal surface area are most desirable for high-efficiency dye-sensitized solar cells (DSSCs). Herein, we present a multicycle hydrothermal synthesis process to produce vertically aligned, single crystal rutile TiO(2) nanowires with different lengths between 1 and 8 μm for application as the working electrode in DSSCs. Optimum performance was obtained with a TiO(2) nanowire length of 2.0 μm, which may be ascribed to a smaller nanowire diameter with a high internal surface area and better optical transmittance with an increase in the incident light intensity on the N719 dye; as well as a firm connection at the FTO/TiO(2) nanowire interface.

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CuInS2 quantum dot-sensitized TiO2 nanorod array photoelectrodes: synthesis and performance optimization

et al. 2012

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CuInS2 quantum dots (QDs) were deposited onto TiO2 nanorod arrays for different cycles by using successive ionic layer adsorption and reaction (SILAR) method. The effect of SILAR cycles on the light absorption and photoelectrochemical properties of the sensitized photoelectrodes was studied. With optimization of CuInS2 SILAR cycles and introduction of In2S3 buffer layer, quantum dot-sensitized solar cells assembled with 3-μm thick TiO2 nanorod film exhibited a short-circuit current density (Isc) of 4.51 mA cm−2, an open-circuit voltage (Voc) of 0.56 V, a fill factor (FF) of 0.41, and a power conversion efficiency (η) of 1.06%, respectively. This study indicates that SILAR process is a very promising strategy for preparing directly anchored semiconductor QDs on TiO2 nanorod surface in a straightforward but controllable way without any complicated fabrication procedures and introduction of a linker molecule.

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Solution Fabrication and Photoelectrical Properties of CuInS₂ Nanocrystals on TiO₂ Nanorod Array

Zhou

Fan

Wang

et al. 2011

ACS Appl. Mater. Interfaces

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One-dimensional semiconductor architectures are receiving attention in preparing photovoltaic solar cells because of its superior charge transport as well as excellent light-harvesting efficiency. In this study, vertically aligned single-crystalline TiO(2) nanorods array was grown directly on transparent conductive glass (FTO), and then CuInS(2) nanocrystals were deposited on nanorods array by spin coating method to form TiO(2)/CuInS(2) heterostructure films. The resulting nanostructure assembly and composition was confirmed by field-emission scanning electron microscope (FESEM) , transmission electron microscopy (TEM), high-resolution TEM, and X-ray diffraction(XRD). Ultraviolet-visible absorption spectroscopy (UV-vis) data indicates that the absorbance of the nanocomposite film extended into the visible region compared with bare TiO(2) nanorod arrays. The surface photovoltage spectra (SPS) also showed a new and enhanced response region corresponding to the absorption spectrum. These results suggest that the novel CuInS(2) nanocrystals sensitized TiO(2) nanorod array on FTO photoelectrodes has a potential application in photovoltaic devices.

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Solvothermal synthesis and characterization of quaternary Cu2ZnSnSe4 particles

Du¹,

Zhou²,

Zhou³

et al. 2012

Materials Science in Semiconductor Processing

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Jun-Qi Fan

One-Step Synthesis of Stoichiometric Cu₂ZnSnSe₄ as Counter Electrode for Dye-Sensitized Solar Cells

Effect of Highly Ordered Single-Crystalline TiO₂ Nanowire Length on the Photovoltaic Performance of Dye-Sensitized Solar Cells

CuInS2 quantum dot-sensitized TiO2 nanorod array photoelectrodes: synthesis and performance optimization

Solution Fabrication and Photoelectrical Properties of CuInS₂ Nanocrystals on TiO₂ Nanorod Array

Solvothermal synthesis and characterization of quaternary Cu2ZnSnSe4 particles

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Jun-Qi Fan

One-Step Synthesis of Stoichiometric Cu2ZnSnSe4 as Counter Electrode for Dye-Sensitized Solar Cells

Effect of Highly Ordered Single-Crystalline TiO2 Nanowire Length on the Photovoltaic Performance of Dye-Sensitized Solar Cells

CuInS2 quantum dot-sensitized TiO2 nanorod array photoelectrodes: synthesis and performance optimization

Solution Fabrication and Photoelectrical Properties of CuInS2 Nanocrystals on TiO2 Nanorod Array

Solvothermal synthesis and characterization of quaternary Cu2ZnSnSe4 particles

Contact Info

Product

Resources

About

One-Step Synthesis of Stoichiometric Cu₂ZnSnSe₄ as Counter Electrode for Dye-Sensitized Solar Cells

Effect of Highly Ordered Single-Crystalline TiO₂ Nanowire Length on the Photovoltaic Performance of Dye-Sensitized Solar Cells

Solution Fabrication and Photoelectrical Properties of CuInS₂ Nanocrystals on TiO₂ Nanorod Array