Your search keyword '"Qingxia Fan"' showing total 9 results

1. Dependence of the solar cell performance on nanocarbon/Si heterojunctions

Author

Shiqi Xiao, Junjie Li, Xiaogang Xia, Penghui Chen, Yanchun Wang, Zhuojian Xiao, Weiya Zhou, Huiliang Chen, Wei Xi, Qingxia Fan, and Huaping Liu

Subjects

Materials science, Silicon, business.industry, Graphene, Photovoltaic system, Energy conversion efficiency, General Physics and Astronomy, chemistry.chemical_element, Heterojunction, 02 engineering and technology, Carbon nanotube, Photovoltaic effect, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry, law, Solar cell, Optoelectronics, 0210 nano-technology, business

Abstract

Solar cells that combine single-crystalline silicon (Si) with graphene (G) have been widely researched in order to develop next-generation photovoltaic devices. However, the power conversion efficiency (PCE) of G/Si solar cell without chemical doping is commonly low due to the relatively high resistance of graphene. In this work, through combining graphene with carbon nanotube (CNT) networks, we fabricated three kinds of hybrid nanocarbon film/Si heterojunction solar cells in order to increase the PCE of the graphene based Si solar cell. We investigated the characteristics of different nanocarbon film/Si solar cells and found that their performance depends on the heterojunctions. Specifically, a doping-free G-CNT/Si solar cell demonstrated a high PCE of 7.9%, which is nearly equal to the combined value of two individuals (G/Si and CNT/Si). This high efficiency is attributed to the synergistic effect of graphene and CNTs, and can be further increased to 9.1% after applying a PMMA antireflection coating. This study provides a potential way to further improve the Si based heterojunction solar cells.

Published

2018

2. Electromechanical actuation of CNT/PVDF composite films based on a bridge configuration

Author

Feng Yang, Shiqia Xiao, Zhuojian Xiao, Weiya Zhou, Huiliang Chen, Nan Zhang, Sishen Xie, Qingxia Fan, Xiaogang Xia, and Xiaogang Gu

Subjects

Materials science, business.industry, General Physics and Astronomy, 02 engineering and technology, Carbon nanotube, STRIPS, Dissipation, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Thermal expansion, 0104 chemical sciences, law.invention, Vibration, Electricity generation, law, Optoelectronics, Electric potential, 0210 nano-technology, business, Voltage

Abstract

Bridged strips consisting of carbon nanotubes and poly(vinylidene fluoride) are developed, which exhibit notable deflection in response to very low driven voltages (), because of both the excellent conductivity of the unique carbon nanotube film and the powerful thermal expansion capability of the polymer. The actuators demonstrate periodic vibrations motivated by the alternating signals. The amplitude of displacement is dependent not only on the driven voltage but also on the applied frequency. The mechanism of actuation is confirmed to be the thermal power induced by the electrical heating. By accelerating the dissipation of heat, the vibration response at higher frequencies can be significantly enhanced. The useful locomotion shows great promise in potential applications such as miniature smart devices and micro power generators.

Published

2017

3. Detection of invisible phonon modes in individual defect-free carbon nanotubes by gradient-field Raman scattering

Author

Junjie Li, Yanchun Wang, Yinglu Ji, Xiaochun Wu, Feng Yang, Nan Zhang, Qingxia Fan, Xiaogang Gu, Zhuojian Xiao, Weiya Zhou, Xiao Zhang, and Qiang Zhang

Subjects

Materials science, Phonon, General Physics and Astronomy, 02 engineering and technology, Carbon nanotube, 021001 nanoscience & nanotechnology, 01 natural sciences, Molecular physics, law.invention, Optical properties of carbon nanotubes, symbols.namesake, Dipole, X-ray Raman scattering, law, 0103 physical sciences, symbols, 010306 general physics, 0210 nano-technology, Raman spectroscopy, Raman scattering, Plasmon

Published

2017

4. Performance improvement of continuous carbon nanotube fibers by acid treatment

Author

Feng Yang, Zhuojian Xiao, Yanchun Wang, Kewei Li, Huaping Liu, Qiang Zhang, Weiya Zhou, Nan Zhang, Qingxia Fan, Wenbin Zhou, and Xiaogang Xia

Subjects

Materials science, Scanning electron microscope, General Physics and Astronomy, Nanotechnology, Sulfuric acid, 02 engineering and technology, Chemical vapor deposition, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Surface coating, symbols.namesake, Electron transfer, chemistry, law, symbols, Surface modification, Composite material, 0210 nano-technology, Raman spectroscopy

Abstract

Continuous CNT fibers have been directly fabricated in a speed of 50 m/h–400 m/h, based on an improved chemical vapor deposition method. As-prepared fibers are further post-treated by acid. According to the SEM images and Raman spectra, the acid treatment results in the compaction and surface modification of the CNTs in fibers, which are beneficial for the electron and load transfer. Compared to the HNO3 treatment, HClSO3 or H2SO4 treatment is more effective for the improvement of the fibers' properties. After HClSO3 treatment for 2 h, the fibers' strength and electrical conductivity reach up to ~ 2 GPa and ~ 4.3 MS/m, which are promoted by ~ 200% and almost one order of magnitude than those without acid treatment, respectively. The load-bearing status of the CNT fibers are analyzed based on the downshifts of the G ' band and the strain transfer factor of the fibers under tension. The results reveal that acid treatment could greatly enhance the load transfer and inter-bundle strength. With the HClSO3 treatment, the strain transfer factor is enhanced from ~ 3.9% to ~ 53.6%.

Published

2017

5. Highly conductive and transparent carbon nanotube-based electrodes for ultrathin and stretchable organic solar cells

Author

Xiaogang Gu, Qingxia Fan, Shiqi Xiao, Huaping Liu, Weiya Zhou, Huiliang Chen, Wenbin Zhou, Nan Zhang, Qiang Zhang, Feng Yang, Yanchun Wang, and Zhuojian Xiao

Subjects

Materials science, Organic solar cell, business.industry, General Physics and Astronomy, Nanotechnology, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Cathode, 0104 chemical sciences, law.invention, Photoactive layer, law, Electrode, Solar cell, Optoelectronics, Thin film, 0210 nano-technology, business, Sheet resistance

Abstract

In this work, we have presented a freestanding and flexible CNT-based film with sheet resistance of 60 Ω/ and transmittance of 82% treated by nitric acid and chloroauric acid in sequence. Based on modified CNT film as a transparent electrode, we have demonstrated an ultrathin, flexible organic solar cell (OSC) fabricated on 2.5-μm PET substrate. The efficiency of OSC, combined with a composite film of poly (3-hexylthiophene) (P3HT) and phenyl-C61 butyric acid methyl ester (PCBM) as an active layer and with a thin layer of methanol soluble biuret inserted between the photoactive layer and the cathode, can be up to 2.74% which is approximate to that of the reference solar cell fabricated with ITO-coated glass (2.93%). Incorporating the as-fabricated ITO-free OSC with pre-stretched elastomer, 50% compressive deformation can apply to the solar cells. The results show that the as-prepared CNT-based hybrid film with outstanding electrical and optical properties could serve as a promising transparent electrode for low cost, flexible and stretchable OSCs, which will broaden the applications of OSC and generate more solar power than it now does.

Published

2017

6. Detection of invisible phonon modes in individual defect-free carbon nanotubes by gradient-field Raman scattering.

Author

Feng Yang, Yinglu Ji, Xiao Zhang, Qingxia Fan, Nan Zhang, Xiaogang Gu, Zhuojian Xiao, Qiang Zhang, Yanchun Wang, Xiaochun Wu, Junjie Li, and Weiya Zhou

Subjects

PHONONS, CARBON nanotubes, RAMAN scattering, ELECTROMAGNETIC fields, SELECTION rules (Nuclear physics)

Abstract

We provide an effective method to investigate the field gradient effect in nanoconfined plasmon–matter interaction. Aligned ultralong SWNTs without defects were grown on marked substrates, followed by assembling gold nanoparticle clusters around individual nanotubes. The Raman scattering behavior of a nanotube placed in an atomic scale nanogap between adjacent nanoparticles was studied. In addition to the expected plasmon-induced Raman enhancement up to 103, the defect-free D-mode of an individual SWNT induced by gradient field is found for the first time. When the light is confined at atomic scale, gradient field Raman scattering becomes significant and dipole-forbidden phonon modes can be activated by quadrupole Raman tensor variation, indicating breakdown of the Raman selection rules. [ABSTRACT FROM AUTHOR]

Published

2017

7. Electromechanical actuation of CNT/PVDF composite films based on a bridge configuration.

Author

Xiaogang Gu, Xiaogang Xia, Nan Zhang, Zhuojian Xiao, Qingxia Fan, Feng Yang, Shiqia Xiao, Huiliang Chen, Weiya Zhou, and Sishen Xie

Subjects

ACTUATORS, THERMAL expansion, ELECTRIC properties of carbon nanotubes, POLYDIMETHYLSILOXANE, POLYETHYLENE terephthalate

Abstract

Bridged strips consisting of carbon nanotubes and poly(vinylidene fluoride) are developed, which exhibit notable deflection in response to very low driven voltages (), because of both the excellent conductivity of the unique carbon nanotube film and the powerful thermal expansion capability of the polymer. The actuators demonstrate periodic vibrations motivated by the alternating signals. The amplitude of displacement is dependent not only on the driven voltage but also on the applied frequency. The mechanism of actuation is confirmed to be the thermal power induced by the electrical heating. By accelerating the dissipation of heat, the vibration response at higher frequencies can be significantly enhanced. The useful locomotion shows great promise in potential applications such as miniature smart devices and micro power generators. [ABSTRACT FROM AUTHOR]

Published

2017

8. Performance improvement of continuous carbon nanotube fibers by acid treatment.

Author

Qiang Zhang, Kewei Li, Qingxia Fan, Xiaogang Xia, Nan Zhang, Zhuojian Xiao, Wenbin Zhou, Feng Yang, Yanchun Wang, Huaping Liu, and Weiya Zhou

Subjects

FIBER orientation, CHEMICAL vapor deposition, NANOMOTORS, CHARGE exchange, ELECTRIC conductivity

Abstract

Continuous CNT fibers have been directly fabricated in a speed of 50 m/h–400 m/h, based on an improved chemical vapor deposition method. As-prepared fibers are further post-treated by acid. According to the SEM images and Raman spectra, the acid treatment results in the compaction and surface modification of the CNTs in fibers, which are beneficial for the electron and load transfer. Compared to the HNO3 treatment, HClSO3 or H2SO4 treatment is more effective for the improvement of the fibers’ properties. After HClSO3 treatment for 2 h, the fibers’ strength and electrical conductivity reach up to ∼ 2 GPa and ∼ 4.3 MS/m, which are promoted by ∼ 200% and almost one order of magnitude than those without acid treatment, respectively. The load-bearing status of the CNT fibers are analyzed based on the downshifts of the G′ band and the strain transfer factor of the fibers under tension. The results reveal that acid treatment could greatly enhance the load transfer and inter-bundle strength. With the HClSO3 treatment, the strain transfer factor is enhanced from ∼ 3.9% to ∼ 53.6%. [ABSTRACT FROM AUTHOR]

Published

2017

9. Highly conductive and transparent carbon nanotube-based electrodes for ultrathin and stretchable organic solar cells.

Author

Qingxia Fan, Qiang Zhang, Wenbin Zhou, Feng Yang, Nan Zhang, Shiqi Xiao, Xiaogang Gu, Zhuojian Xiao, Huiliang Chen, Yanchun Wang, Huaping Liu, and Weiya Zhou

Subjects

DIRECT energy conversion, SOLAR cells, ELECTRIC resistors, ELECTRODE potential, SOLAR energy, RENEWABLE energy sources

Abstract

In this work, we have presented a freestanding and flexible CNT-based film with sheet resistance of 60 Ω/□ and transmittance of 82% treated by nitric acid and chloroauric acid in sequence. Based on modified CNT film as a transparent electrode, we have demonstrated an ultrathin, flexible organic solar cell (OSC) fabricated on 2.5-μm PET substrate. The efficiency of OSC, combined with a composite film of poly (3-hexylthiophene) (P3HT) and phenyl-C61 butyric acid methyl ester (PCBM) as an active layer and with a thin layer of methanol soluble biuret inserted between the photoactive layer and the cathode, can be up to 2.74% which is approximate to that of the reference solar cell fabricated with ITO-coated glass (2.93%). Incorporating the as-fabricated ITO-free OSC with pre-stretched elastomer, 50% compressive deformation can apply to the solar cells. The results show that the as-prepared CNT-based hybrid film with outstanding electrical and optical properties could serve as a promising transparent electrode for low cost, flexible and stretchable OSCs, which will broaden the applications of OSC and generate more solar power than it now does. [ABSTRACT FROM AUTHOR]

Published

2017