P. Ilanchezhiyan scite author profile

A MoS2 nanosphere memristor with lateral gold electrodes was found to show photoresistive switching. The new device can be controlled by the polarization of nanospheres, which causes resistance switching in an electric field in the dark or under white light illumination. The polarization charge allows to change the switching voltage of the photomemristor, providing its multi-level operation. The device, polarized at a voltage 6 V, switches abruptly from a high resistance state (HRSL6) to a low resistance state (LRSL6) with the On/Off resistance ratio of about 10 under white light and smooth in the dark. Analysis of device conductivity in different resistive states indicates that its resistive state could be changed by the modulation of the charge in an electric field in the dark or under light, resulting in the formation/disruption of filaments with high conductivity. A MoS2 photomemristor has great potential as a multifunctional device designed by using cost-effective fabrication techniques.

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Electrochemical studies of spherically clustered MoS2 nanostructures for electrode applications

Ilanchezhiyan

Kumar

Kang

2015

Journal of Alloys and Compounds

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Tunable UV-visible absorption of SnS₂layered quantum dots produced by liquid phase exfoliation

Ilanchezhiyan

Kumar

et al. 2017

Nanoscale

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4H-SnS layered crystals synthesized by a hydrothermal method were used to obtain via liquid phase exfoliation quantum dots (QDs), consisting of a single layer (SLQDs) or multiple layers (MLQDs). Systematic downshift of the peaks in the Raman spectra of crystals with a decrease in size was observed. The bandgap of layered QDs, estimated by UV-visible absorption spectroscopy and the tunneling current measurements using graphene probes, increases from 2.25 eV to 3.50 eV with decreasing size. 2-4 nm SLQDs, which are transparent in the visible region, show selective absorption and photosensitivity at wavelengths in the ultraviolet region of the spectrum while larger MLQDs (5-90 nm) exhibit a broad band absorption in the visible spectral region and the photoresponse under white light. The results show that the layered quantum dots obtained by liquid phase exfoliation exhibit well-controlled and regulated bandgap absorption in a wide tunable wavelength range. These novel layered quantum dots prepared using an inexpensive method of exfoliation and deposition from solution onto various substrates at room temperature can be used to create highly efficient visible-blind ultraviolet photodetectors and multiple bandgap solar cells.

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Effect of Pr doping on the structural and optical properties of ZnO nanorods

Ilanchezhiyan

Kumar

Subramanian

et al. 2010

Materials Science and Engineering: B

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P. Ilanchezhiyan

Highly efficient CNT functionalized cotton fabrics for flexible/wearable heating applications

MoS2 memristor with photoresistive switching

Electrochemical studies of spherically clustered MoS2 nanostructures for electrode applications

Tunable UV-visible absorption of SnS₂layered quantum dots produced by liquid phase exfoliation

Effect of Pr doping on the structural and optical properties of ZnO nanorods

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About

P. Ilanchezhiyan

Highly efficient CNT functionalized cotton fabrics for flexible/wearable heating applications

MoS2 memristor with photoresistive switching

Electrochemical studies of spherically clustered MoS2 nanostructures for electrode applications

Tunable UV-visible absorption of SnS2layered quantum dots produced by liquid phase exfoliation

Effect of Pr doping on the structural and optical properties of ZnO nanorods

Contact Info

Product

Resources

About

Tunable UV-visible absorption of SnS₂layered quantum dots produced by liquid phase exfoliation