Journal Article
S. Benedict, Singh, M. , Naik, T. R. Ravikumar, Shivashankar, S. A. , and Bhat, N. ,
“Microwave-Synthesized NiO as a Highly Sensitive and Selective Room-Temperature NO2 Sensor”,
ECS Journal of Solid State Science and Technology, vol. 7, pp. Q3143–Q3147, 2018.
S. G. Menon, Choudhari, K. S. , Shivashankar, S. A. , Chidangil, S. , and Kulkarni, S. D. ,
“Microwave solution route to ceramic ZnAl 2 O 4 nanoparticles in 10 minutes: inversion and photophysical changes with thermal history”,
New Journal of Chemistry, vol. 41, pp. 5420–5428, 2017.
K. P. Nagarjun, Raj, P. , Jeyaselvan, V. , Selvaraja, S. Kumar, and Supradeepa, V. R. ,
“Microwave power induced resonance shifting of silicon ring modulators for continuously tunable, bandwidth scaled frequency combs”,
Optics Express, vol. 28, pp. 13032–13042, 2020.
K. P. Nagarjun, Raj, P. , Jeyaselvan, V. , Selvaraja, S. Kumar, and Supradeepa, V. R. ,
“Microwave power induced resonance shifting of silicon ring modulators for continuously tunable, bandwidth scaled frequency combs”,
Optics Express, vol. 28, pp. 13032–13042, 2020.
P. Jaiswal, Muazzam, U. Ul, Pratiyush, A. Singh, Mohan, N. , Raghavan, S. , Muralidharan, R. , Shivashankar, S. A. , and Nath, D. N. ,
“Microwave irradiation-assisted deposition of Ga2O3 on III-nitrides for deep-UV opto-electronics”,
Applied Physics Letters, vol. 112, p. 021105, 2018.
M. P. Singh, Shalini, K. , Shivashankar, S. A. , Deepak, G. C. , Bhat, N. , and Shripathi, T. ,
“Microstructure, crystallinity, and properties of low-pressure MOCVD-grown europium oxide films”,
Materials Chemistry and Physics, vol. 110, pp. 337-343, 2008.
M. P. Singh, Shalini, K. , Shivashankar, S. A. , Deepak, G. C. , Bhat, N. , and Shripathi, T. ,
“Microstructure, crystallinity, and properties of low-pressure MOCVD-grown europium oxide films”,
Materials Chemistry and Physics, vol. 110, pp. 337-343, 2008.
M. P. Singh, Shalini, K. , Shivashankar, S. A. , Deepak, G. C. , Bhat, N. , and Shripathi, T. ,
“Microstructure, crystallinity, and properties of low-pressure MOCVD-grown europium oxide films”,
Materials Chemistry and Physics, vol. 110, pp. 337-343, 2008.
M. P. Singh, Shalini, K. , Shivashankar, S. A. , Deepak, G. C. , Bhat, N. , and Shripathi, T. ,
“Microstructure, crystallinity, and properties of low-pressure MOCVD-grown europium oxide films”,
Materials Chemistry and Physics, vol. 110, pp. 337-343, 2008.
P. Sen and Kim, C. - J. ,
“Microscale liquid-metal switches—a review”,
IEEE Transactions on Industrial Electronics, vol. 56, no. 4, pp. 1314–1330, 2009.
M. Sharma, Kumar, P. , Irzhak, A. V. , Kumar, S. , Pratap, R. , von Gratovski, S. V. , Shavrov, V. G. , and Koledov, V. V. ,
“Melting and Electromigration in Thin Chromium Films”,
Physics of the Solid State, vol. 62, pp. 988–992, 2020.
M. Sharma, Kumar, P. , Irzhak, A. V. , Kumar, S. , Pratap, R. , von Gratovski, S. V. , Shavrov, V. G. , and Koledov, V. V. ,
“Melting and Electromigration in Thin Chromium Films”,
Physics of the Solid State, vol. 62, pp. 988–992, 2020.
M. Pal, Somalwar, N. , Singh, A. , Bhat, R. , Eswarappa, S. M. , Saini, D. K. , and Ghosh, A. ,
“Maneuverability of Magnetic Nanomotors Inside Living Cells”,
Advanced Materials, p. 1800429, 2018.
M. Pal, Somalwar, N. , Singh, A. , Bhat, R. , Eswarappa, S. M. , Saini, D. K. , and Ghosh, A. ,
“Maneuverability of Magnetic Nanomotors Inside Living Cells”,
Advanced Materials, p. 1800429, 2018.
M. Pal, Somalwar, N. , Singh, A. , Bhat, R. , Eswarappa, S. M. , Saini, D. K. , and Ghosh, A. ,
“Maneuverability of Magnetic Nanomotors Inside Living Cells”,
Advanced Materials, p. 1800429, 2018.
R. Sai, Shivashankar, S. A. , Yamaguchi, M. , and Bhat, N. ,
“Magnetic Nanoferrites for RF CMOS: Enabling 5G and Beyond”,
The Electrochemical Society Interface, vol. 26, pp. 71–76, 2017.
R. Sai, Shivashankar, S. A. , Yamaguchi, M. , and Bhat, N. ,
“Magnetic Nanoferrites for RF CMOS: Enabling 5G and Beyond”,
The Electrochemical Society Interface, vol. 26, pp. 71–76, 2017.
N. Jorapur, Palaparthy, V. S. , S., S. , John, J. , Bhagini, M. S. , and Ananthasuresh, G. K. ,
“A Low-power, Low-cost Soil-Moisture Sensors using Dual-probe Heat-pulse Technique”,
Sensors and Actuators A: Physical, vol. 233, pp. 108–117, 2015.
A. Z. Subramanian, Neutens, P. , Dhakal, A. , Jansen, R. , Claes, T. , Rottenberg, X. , Peyskens, F. , Selvaraja, S. K. , Helin, P. , Dubois, B. , Leyssens, K. , Severi, S. , Deshpande, P. , Baets, R. , and Van Dorpe, P. ,
“Low-Loss Singlemode PECVD Silicon Nitride Photonic Wire Waveguides for 532-900 nm Wavelength Window Fabricated Within a CMOS Pilot Line”,
Photonics Journal, IEEE, vol. 5, p. 2202809, 2013.
A. Z. Subramanian, Neutens, P. , Dhakal, A. , Jansen, R. , Claes, T. , Rottenberg, X. , Peyskens, F. , Selvaraja, S. K. , Helin, P. , Dubois, B. , Leyssens, K. , Severi, S. , Deshpande, P. , Baets, R. , and Van Dorpe, P. ,
“Low-Loss Singlemode PECVD Silicon Nitride Photonic Wire Waveguides for 532-900 nm Wavelength Window Fabricated Within a CMOS Pilot Line”,
Photonics Journal, IEEE, vol. 5, p. 2202809, 2013.
A. Z. Subramanian, Neutens, P. , Dhakal, A. , Jansen, R. , Claes, T. , Rottenberg, X. , Peyskens, F. , Selvaraja, S. K. , Helin, P. , Dubois, B. , Leyssens, K. , Severi, S. , Deshpande, P. , Baets, R. , and Van Dorpe, P. ,
“Low-Loss Singlemode PECVD Silicon Nitride Photonic Wire Waveguides for 532-900 nm Wavelength Window Fabricated Within a CMOS Pilot Line”,
Photonics Journal, IEEE, vol. 5, p. 2202809, 2013.
S. K. Selvaraja, Sleeckx, E. , Schaekers, M. , Bogaerts, W. , Van Thourhout, D. , Dumon, P. , and Baets, R. ,
“Low-Loss Amorphous Silicon-On-Insulator Technology for Photonic Integrated Circuitry”,
Optics Communications, vol. 282, pp. 1767–1770, 2009.
S. K. Selvaraja, Sleeckx, E. , Schaekers, M. , Bogaerts, W. , Van Thourhout, D. , Dumon, P. , and Baets, R. ,
“Low-Loss Amorphous Silicon-On-Insulator Technology for Photonic Integrated Circuitry”,
Optics Communications, vol. 282, pp. 1767–1770, 2009.
S. K. Selvaraja, Sleeckx, E. , Schaekers, M. , Bogaerts, W. , Van Thourhout, D. , Dumon, P. , and Baets, R. ,
“Low-Loss Amorphous Silicon-On-Insulator Technology for Photonic Integrated Circuitry”,
Optics Communications, vol. 282, pp. 1767–1770, 2009.