Krishna Chand Maurya
Krishna Chand Maurya
Postdoctoral fellow at University of Würzburg, Germany
Verified email at
Cited by
Cited by
Reduced optical losses in refractory plasmonic titanium nitride thin films deposited with molecular beam epitaxy
KC Maurya, VM Shalaev, A Boltasseva, B Saha
Optical Materials Express 10 (10), 2679-2692, 2020
Refractory plasmonic hafnium nitride and zirconium nitride thin films as alternatives to silver for solar mirror applications
P Das, B Biswas, KC Maurya, M Garbrecht, B Saha
ACS Applied Materials & Interfaces 14 (41), 46708-46715, 2022
Polar semiconducting scandium nitride as an infrared plasmon and phonon–polaritonic material
KC Maurya, D Rao, S Acharya, P Rao, AIK Pillai, SK Selvaraja, ...
Nano Letters 22 (13), 5182-5190, 2022
Wave‐Vector‐Dependent Raman Scattering from Coupled Plasmon–Longitudinal Optical Phonon Modes and Fano Resonance in n‐type Scandium Nitride
KC Maurya, B Biswas, M Garbrecht, B Saha
physica status solidi (RRL)–Rapid Research Letters 13 (9), 1900196, 2019
Ultra‐Emissive MgO‐PVDF Polymer Nanocomposite Paint for Passive Daytime Radiative Cooling
P Das, S Rudra, KC Maurya, B Saha
Advanced Materials Technologies 8 (24), 2301174, 2023
Morphology-controlled reststrahlen band and infrared plasmon polariton in gan nanostructures
KC Maurya, A Chatterjee, SM Shivaprasad, B Saha
Nano Letters 22 (23), 9606-9613, 2022
Near-UV-to-Near-IR Hyperbolic Photonic Dispersion in Epitaxial (Hf, Zr) N/ScN Metal/Dielectric Superlattices
P Das, KC Maurya, JL Schroeder, M Garbrecht, B Saha
ACS Applied Energy Materials 5 (4), 3898-3904, 2022
Anisotropic epsilon-near-pole (ENP) resonance leads to hyperbolic photonic dispersion in homologous (Bi2) m (Bi2Se3) n topological quantum materials
KC Maurya, A Bhui, K Biswas, B Saha
Applied Physics Letters 119 (1), 2021
Giant enhancement of plasmonic response and epsilon-near-zero signature in refractory transition metals (Ta, W, and Mo) deposited at high-temperature
KC Maurya, B Biswas, D Rao, B Saha
Applied Physics Letters 118 (4), 2021
Nonresonant Exciton–Plasmon Interaction in Metal–Chalcogenide (CuxS)/Perovskite (CsPbBr3) Based Colloidal Heterostructure
S Chakraborty, G Dash, S Mannar, KC Maurya, A Das, S Narasimhan, ...
The Journal of Physical Chemistry C 127 (31), 15353-15362, 2023
Radiative volume plasmon and phonon-polariton resonances in TiN-based plasmonic/polar-dielectric hyperbolic optical metamaterials
KC Maurya, V Caligiuri, AIK Pillai, M Garbrecht, R Krahne, B Saha
Applied Physics Letters 122 (22), 2023
Simultaneous optical resonances at visible and mid-infrared frequencies with epitaxial TiN/Al0. 72Sc0. 28N/TiN metal/polar-dielectric/metal multilayers
KC Maurya, AIK Pillai, M Garbrecht, B Saha
Materials Today Physics 27, 100797, 2022
Plasmon and Phonon-Polaritons in Refractory Transition Metal Nitrides
KC Maurya, B Saha
Energy Materials, 175-199, 2023
Discovery of Polar Semiconducting Scandium Nitride as an Infrared Plasmon and Phonon-Polaritonic Material
K Maurya, D Rao, S Acharya, PR Rao, A Pillai, S Selvaraja, M Garbrecht, ...
Light-matter interactions: Plasmon & phonon polaritons in refractory nitrides for nanophotonics
KC Maurya
Jawaharlal Nehru Centre for Advanced Scientific Research, 2022
Infrared Plasmon and Phonon-Polaritons in Polar Semiconducting Scandium Nitride (ScN)
KC Maurya, D Rao, S Acharya, P Rao, A Pillai, S Kumar, M Garbrecht, ...
Reduced optical losses in refractory plasmonic titanium nitride thin films deposited with molecular beam epitaxy: supplement
The system can't perform the operation now. Try again later.
Articles 1–17