High-work-function metal/carbon nanotube/low-work-function metal hybrid junction photovoltaic device

Chen, Changxin; Jin, Tan; Wei, Liangming; Li, Yong; Liu, Xiaodong; Wang, Ying; Zhang, Liying; Liao, Calvin C.Y.; Hu, Nantao; Song, Chuanjuan; Zhang, Yafei

doi:10.1038/am.2015.112

Cited by 19 publications

(13 citation statements)

References 25 publications

(26 reference statements)

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“…Non-covalent doping can tune the doping type and degree of the SWNT without producing structure defects [195]. The diameter of SWCNT can be used to control its energy gap to produce the p-n junction diodes with different characteristics [196]. Furthermore, the characteristics of high intrinsic mobility (>100,000 cm 2 /Vs) and up to 109 A cm −2 current-carrying capacity make SWNTs promising for use in the high-performance diodes fabrication [197].…”

Section: Carbon Nanotube-based Diodes Field-effect Transistors and mentioning

confidence: 99%

An Overview of the Recent Progress in the Synthesis and Applications of Carbon Nanotubes

et al. 2019

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Carbon nanotubes (CNTs) are known as nano-architectured allotropes of carbon, having graphene sheets that are wrapped forming a cylindrical shape. Rolling of graphene sheets in different ways makes CNTs either metals or narrow-band semiconductors. Over the years, researchers have devoted much attention to understanding the intriguing properties CNTs. They exhibit some unusual properties like a high degree of stiffness, a large length-to-diameter ratio, and exceptional resilience, and for this reason, they are used in a variety of applications. These properties can be manipulated by controlling the diameter, chirality, wall nature, and length of CNTs which are in turn, synthesis procedure-dependent. In this review article, various synthesis methods for the production of CNTs are thoroughly elaborated. Several characterization methods are also described in the paper. The applications of CNTs in various technologically important fields are discussed in detail. Finally, future prospects of CNTs are outlined in view of their commercial applications.

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Section: Carbon Nanotube-based Diodes Field-effect Transistors and mentioning

confidence: 99%

An Overview of the Recent Progress in the Synthesis and Applications of Carbon Nanotubes

et al. 2019

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“…The work function of Pd was 5.1 eV, the Fermi level of Pd would be located at the top of the valence band of SWCNT at the Pd-SWCNT contact. The work function of Al was 4.1 eV, the Fermi level of Al would be close to the bottom of the conduction band of SWCNT at the Al-SWCNT contact 9 . The difference in the values of the work functions of the source and drain electrodes caused the bending of the energy band in the SWCNT and made the device showed the diode characteristics.…”

Section: Resultsmentioning

confidence: 97%

“…The doping type and degree of the SWCNT can be controlled by non-covalent or adsorption doping without introducing any defects in SWCNTs to keep the excellent material characteristics of the SWCNTs 8 . The energy gap (Eg) of the SWCNT can be tuned by its diameter 9 to fabricate the diodes with different built-in electric field. Besides, SWCNTs have extremely high intrinsic mobility 10 (>100 000 cm 2 /Vs) and large current-carrying capacity 11 as high as 10 9 A cm −2 .…”

mentioning

confidence: 99%

Carbon nanotube intramolecular p-i-n junction diodes with symmetric and asymmetric contacts

Chen

Liao

Wei

et al. 2016

Sci Rep

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A p-i-n junction diode based on the selectively doped single-walled carbon nanotube (SWCNT) had been investigated, in which two opposite ends of individual SWCNT channel were doped into the p- and n-type SWCNT respectively while the middle segment of SWCNT was kept as the intrinsic. The symmetric and asymmetric contacts were used to fabricate the p-i-n junction diodes respectively and studied the effect of the contact on the device characteristics. It was shown that a low reverse saturation current of ~20 pA could be achieved by these both diodes. We found that the use of the asymmetric contact can effectively improve the performance of the p-i-n diode, with the rectification ratio enhanced from ~102 for the device with the Au/Au symmetric contact to >103 for the one with the Pd/Al asymmetric contact. The improvement of the device performance by the asymmetric-contact structure was attributed to the decrease of the effective Schottky-barrier height at the contacts under forward bias, increasing the forward current of the diode. The p-i-n diode with asymmetric contact also had a higher rectification ratio than its counterpart before doping the SWCNT channel, which is because that the p-i-n junction in the device decreased the reverse saturated current.

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“…Nowadays investigation of nonlinear thermomechanical processes in low-dimensional structures attracts high interest due to the rapid development of nanoelectronical devices based on materials with microstructure [1,2,3,4]. Achievements in nanotechnology allowed for an experimental proof of the wave nature and finite propagation velocity of thermal perturbations [5,6].…”

Section: Introductionmentioning

confidence: 99%

Localized heat perturbation in harmonic 1D crystals: Solutions for the equation of anomalous heat conduction

2017

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In this work exact solutions for the equation that describes anomalous heat propagation in 1D harmonic lattices are obtained. Rectangular, triangular, and sawtooth initial perturbations of the temperature field are considered. The solution for an initially rectangular temperature profile is investigated in detail. It is shown that the decay of the solution near the wavefront is proportional to 1/ √ t. In the center of the perturbation zone the decay is proportional to 1/t. Thus the solution decays slower near the wavefront, leaving clearly visible peaks that can be detected experimentally. *

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High-work-function metal/carbon nanotube/low-work-function metal hybrid junction photovoltaic device

Cited by 19 publications

References 25 publications

An Overview of the Recent Progress in the Synthesis and Applications of Carbon Nanotubes

An Overview of the Recent Progress in the Synthesis and Applications of Carbon Nanotubes

Carbon nanotube intramolecular p-i-n junction diodes with symmetric and asymmetric contacts

Localized heat perturbation in harmonic 1D crystals: Solutions for the equation of anomalous heat conduction

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