Dhanya S Murali scite author profile

Hole conducting, optically transparent Cu2O thin films on glass substrates have been synthesized by vacuum annealing (5×10−6 mbar at 700 K for 1 hour) of magnetron sputtered (at 300 K) CuO thin films. The Cu2O thin films are p-type and show enhanced properties: grain size (54.7 nm), optical transmission 72% (at 600 nm) and Hall mobility 51 cm2/Vs. The bulk and surface Valence band spectra of Cu2O and CuO thin films are studied by temperature dependent Hall effect and Ultra violet photo electron Spectroscopy (UPS). CuO thin films show a significant band bending downwards (due to higher hole concentration) than Cu2O thin films.

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Synthesis of low resistive p type Cu₄O₃thin films by DC reactive magnetron sputtering and conversion of Cu₄O₃into CuO by laser irradiation

Murali¹,

Subrahmanyam²

2016

J. Phys. D: Appl. Phys.

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Thermal conversion of Cu4O3 into CuO and Cu2O and the electrical properties of magnetron sputtered Cu4O3 thin films

Murali

Subrahmanyam

2018

Appl. Phys. A

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Nonlinear absorption and scattering of a single plasmonic nanostructure characterized by x-scan technique

Jagadale

Murali

Chu

2019

Beilstein J. Nanotechnol.

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Nonlinear nanoplasmonics is a largely unexplored research area that paves the way for many exciting applications, such as nanolasers, nanoantennas, and nanomodulators. In the field of nonlinear nanoplasmonics, it is highly desirable to characterize the nonlinearity of the optical absorption and scattering of single nanostructures. Currently, the common method to quantify optical nonlinearity is the z-scan technique, which yields real and imaginary parts of the permittivity by moving a thin sample with a laser beam. However, z-scan typically works with thin films, and thus acquires nonlinear responses from ensembles of nanostructures, not from single ones. In this work, we present an x-scan technique that is based on a confocal laser scanning microscope equipped with forward and backward detectors. The two-channel detection offers the simultaneous quantification for the nonlinear behavior of scattering, absorption and total attenuation by a single nanostructure. At low excitation intensities, both scattering and absorption responses are linear, thus confirming the linearity of the detection system. At high excitation intensities, we found that the nonlinear response can be derived directly from the point spread function of the x-scan images. Exceptionally large nonlinearities of both scattering and absorption are unraveled simultaneously for the first time. The present study not only provides a novel method for characterizing nonlinearity of a single nanostructure, but also reports surprisingly large plasmonic nonlinearities.

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Flexible electrochromics: magnetron sputtered tungsten oxide (WO_3−x) thin films on Lexan (optically transparent polycarbonate) substrates

Kumar¹,

Murali²,

Subrahmanyam³

2015

J. Phys. D: Appl. Phys.

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Dhanya S Murali

Synthesis of Cu2O from CuO thin films: Optical and electrical properties

Synthesis of low resistive p type Cu₄O₃thin films by DC reactive magnetron sputtering and conversion of Cu₄O₃into CuO by laser irradiation

Thermal conversion of Cu4O3 into CuO and Cu2O and the electrical properties of magnetron sputtered Cu4O3 thin films

Nonlinear absorption and scattering of a single plasmonic nanostructure characterized by x-scan technique

Flexible electrochromics: magnetron sputtered tungsten oxide (WO_3−x) thin films on Lexan (optically transparent polycarbonate) substrates

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Dhanya S Murali

Synthesis of Cu2O from CuO thin films: Optical and electrical properties

Synthesis of low resistive p type Cu4O3thin films by DC reactive magnetron sputtering and conversion of Cu4O3into CuO by laser irradiation

Thermal conversion of Cu4O3 into CuO and Cu2O and the electrical properties of magnetron sputtered Cu4O3 thin films

Nonlinear absorption and scattering of a single plasmonic nanostructure characterized by x-scan technique

Flexible electrochromics: magnetron sputtered tungsten oxide (WO3−x) thin films on Lexan (optically transparent polycarbonate) substrates

Contact Info

Product

Resources

About

Synthesis of low resistive p type Cu₄O₃thin films by DC reactive magnetron sputtering and conversion of Cu₄O₃into CuO by laser irradiation

Flexible electrochromics: magnetron sputtered tungsten oxide (WO_3−x) thin films on Lexan (optically transparent polycarbonate) substrates