Sugavaneshwar R P
Sugavaneshwar R P
Assistant Professor, VIT Bhopal
Verified email at vitbhopal.ac.in - Homepage
Title
Cited by
Cited by
Year
Titanium nitride nanoparticles as plasmonic solar heat transducers
S Ishii, RP Sugavaneshwar, T Nagao
The Journal of Physical Chemistry C 120 (4), 2343-2348, 2016
1542016
Hole array perfect absorbers for spectrally selective midwavelength infrared pyroelectric detectors
TD Dao, S Ishii, T Yokoyama, T Sawada, RP Sugavaneshwar, K Chen, ...
Acs Photonics 3 (7), 1271-1278, 2016
602016
Solar water heating and vaporization with silicon nanoparticles at mie resonances
S Ishii, RP Sugavaneshwar, K Chen, TD Dao, T Nagao
Optical Materials Express 6 (2), 640-648, 2016
532016
Spectrally Selective Mid‐Infrared Thermal Emission from Molybdenum Plasmonic Metamaterial Operated up to 1000° C
T Yokoyama, TD Dao, K Chen, S Ishii, RP Sugavaneshwar, M Kitajima, ...
Advanced Optical Materials 4 (12), 1987-1992, 2016
342016
Enhanced Solar Light Absorption and Photoelectrochemical Conversion Using TiN Nanoparticle-Incorporated C3N4–C Dot Sheets
SL Shinde, S Ishii, TD Dao, RP Sugavaneshwar, T Takei, KK Nanda, ...
ACS applied materials & interfaces 10 (3), 2460-2468, 2018
272018
Fabrication of highly metallic TiN films by pulsed laser deposition method for plasmonic applications
RP Sugavaneshwar, S Ishii, TD Dao, A Ohi, T Nabatame, T Nagao
ACS Photonics 5 (3), 814-819, 2017
272017
Carbon nanotube-ZnO nanowire hybrid architectures as multifunctional devices
LT Singh, RP Sugavaneshwar, KK Nanda
AIP advances 3 (8), 082106, 2013
112013
Uninterrupted and reusable source for the controlled growth of nanowires
RP Sugavaneshwar, KK Nanda
Scientific reports 3, 1172, 2013
112013
Ultralong ZnO nanowires: Problems and prospects
RP Sugavaneshwar, K Kar Nanda
Materials Express 3 (3), 185-200, 2013
102013
Carbon nanotube mat as substrate for ZnO nanotip field emitters
RP Sugavaneshwar, T Nagao, KK Nanda
RSC advances 2 (7), 2713-2716, 2012
102012
Multistage effect in enhancing the field emission behaviour of ZnO branched nanostructures
RP Sugavaneshwar, KK Nanda
Applied Physics Letters 104 (22), 222104, 2014
92014
Fabrication of highly dense nanoholes by self-assembled gallium droplet on silicon surface
RP Sugavaneshwar, T Nagao, KK Nanda
Materials Express 2 (3), 245-250, 2012
72012
Effects of nanoscale morphology and defects in oxide: optoelectronic functions of zinc oxide nanowires
T Nagao, TD Dao, RP Sugavaneshwar, K Chen, KK Nanda
Radiation effects and defects in solids 171 (1-2), 22-33, 2016
62016
Plasmon mediated cathodic photocurrent generation in sol-gel synthesized doped SrTiO3 nanofilms
RP Sugavaneshwar, K Chen, G Lakshminarayana, S Ishii, TD Dao, ...
APL Materials 3 (11), 116103, 2015
42015
Doping by diffusion of dopants from the substrate: synthesis of doped ZnO nanowires
RP Sugavaneshwar, GK Goswami, KK Nanda
Journal of Materials Chemistry C 1 (6), 1066-1069, 2013
42013
Sunlight absorbing titanium nitride nanoparticles
S Ishii, RP Sugavaneshwar, K Chen, TD Dao, T Nagao
2015 17th International Conference on Transparent Optical Networks (ICTON), 1-3, 2015
32015
Efficient Absorption of Sunlight Using Resonant Nanoparticles for Solar Heat Applications
S Ishii, K Chen, RP Sugavaneshwar, H Okuyama, TD Dao, SL Shinde, ...
Materials Nanoarchitectonics, 241-253, 2018
12018
Effect of oxygen annealing on the photoresponse of PbSe thin films fabricated by the pulsed laser deposition method
RP Sugavaneshwar, TD Dao, T Yokoyama, S Ishii, T Nagao
Radiation Effects and Defects in Solids 173 (1-2), 112-117, 2018
12018
Lossy plasmonic resonances in nanoparticles for broadband light absorption
S Ishii, RP Sugavaneshwar, K Chen, TD Dao, T Nagao
2015 11th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) 1, 1-2, 2015
12015
Epitaxial growth mechanism of high-crystallinity lanthanum hexaboride (001) thin films on silicon (001) by electron beam deposition
ØS Handegård, HD Ngo, RP Sugavaneshwar, TA Doan, F Naoki, S Otani, ...
Applied Physics Express 13 (5), 055504, 2020
2020
The system can't perform the operation now. Try again later.
Articles 1–20