**Author details**

Deependra Kumar Singh, Karuna Kar Nanda and Saluru Baba Krupanidhi\* Materials Research Centre, Indian Institute of Science, Bangalore, India

\*Address all correspondence to: sbkrupanidhi@gmail.com

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

**39**

*Pulsed Laser Deposition of Transition Metal Dichalcogenides-Based Heterostructures…*

Sensors and Actuators A: Physical.

[8] Chowdhury AM, Chandan G, Pant R, Roul B, Singh DK, Nanda KK, et al. Self-Powered, Broad Band, and Ultrafast InGaN-Based Photodetector. ACS Applied Material & Interfaces.

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[10] Arora K, Kumar M. Sputtered-Growth of High-Temperature Seed-Layer Assisted β-Ga2O3 Thin Film on Silicon-Substrate for Cost-Effective Solar-Blind Photodetector Application. ECS Journal of Solid State Science and

Technology. 2020;9(6):065013.

2020;8(16):2000212.

[11] Arora K, Singh DP, Fischer P, Kumar M. Spectrally Selective and Highly Sensitive UV Photodetection with UV-A,C Band Specific Polarity Switching in Silver Plasmonic

Nanoparticle Enhanced Gallium Oxide Thin-Film. Advanced Optical Materials.

[12] Peytavit E, Arscott S, Lippens D, Mouret G, Matton S, Masselin P, et al. Terahertz frequency difference from vertically integrated low-temperaturegrown GaAs photodetector. Applied Physics Letters. 2002;81(7):1174-6.

[13] Berencén Y, Prucnal S, Liu F, Skorupa I, Hübner R, Rebohle L, et al. Room-temperature short-wavelength infrared Si photodetector. Scientific

Reports. 2017;7(1):43688.

[14] Monroy E, Calle F, Pau JL, Muñoz E, Omnès F, Beaumont B, et al. AlGaN-based UV photodetectors.

Journal of Crystal Growth. 2001;230(3-4):537-43.

*DOI: http://dx.doi.org/10.5772/intechopen.94236*

heterostructures. Nano Energy. 2018;51:

[1] Wu W, Zhang Q, Zhou X, Li L, Su J, Wang F, Zhai T. Self-powered photovoltaic photodetector established

on lateral monolayer MoS2-WS2

[2] Singh RK, Kumar J, Kumar A, Kumar V, Kant R, Singh R. Poly(3 hexylthiophene): Functionalized single-walled carbon nanotubes: (6,6)-phenyl-C61-butyric acid methyl ester composites for photovoltaic cell at ambient condition. Solar Energy Materials and Solar Cells.

2010;94(12):2386-94.

[3] Khan MA, Nanda KK,

Materials. 2020;2(4):944-53.

on monolayer MoS2. Nature

[6] Pant RK, Singh DK, Roul B,

[5] Lopez-Sanchez O, Lembke D, Kayci M, Radenovic A, Kis A. Ultrasensitive photodetectors based

Nanotechnology. 2013;8(7):497-501.

[7] Sai Manohar GV, Krupanidhi SB, Nanda KK. Giant enhancement in photoresponse via engineering of photoinduced charge (electron and hole) transfer in linear and non-linear devices.

Chowdhury AM, Chandan G, Nanda KK, et al. Photodetection Properties of Nonpolar a-Plane GaN Grown by Three Approaches Using Plasma-Assisted Molecular Beam Epitaxy. physica status solidi (a). 2019;216(18):1900171.

Krupanidhi SB. Mechanistic view on efficient photodetection by

solvothermally reduced graphene oxide. Journal of Material Science: Material in Electronics. 2017;28(19):14818-26.

[4] Singh DK, Pant R, Chowdhury AM, Roul B, Nanda KK, Krupanidhi SB. Defect-Mediated Transport in Self-Powered, Broadband, and Ultrafast Photoresponse of a MoS2/AlN/Si-Based Photodetector. ACS Applied Electronic

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*Pulsed Laser Deposition of Transition Metal Dichalcogenides-Based Heterostructures… DOI: http://dx.doi.org/10.5772/intechopen.94236*
