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Ankitha E Bangera
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Year
A conditional justification for the determination of surface energy of solids using contact angle methods
AE Bangera, K Appaiah
Materials Chemistry and Physics 234, 168-171, 2019
222019
Modeling and analysis of a SWCNT piezoresistive pressure sensor
AE Bangera, SM Kulkarni
2013 IEEE International Conference ON Emerging Trends in Computing …, 2013
122013
Tunable wettability and prediction of total surface energy for nanocoatings: An empirical model
AE Bangera, K Appaiah
Surface and Coatings Technology 383, 125277, 2020
52020
Modeling and Analysis of pressure sensor with Single Walled Carbon Nanotubes for piezoresistive transduction
AE Bangera, SM Kulkarni
Procedia Materials Science 5, 640-647, 2014
52014
Three-Dimensional Grids of Optimized Ti-Compounds on Si for Ultra-Wideband Optical Absorption
AE Bangera, K Appaiah
ACS applied materials & interfaces 12 (35), 39826-39833, 2020
22020
Surface engineering using compounds of titanium nanocoatings for silicon-based optical devices
AE Bangera, K Appaiah, S Chakrabarti
Oxide-based Materials and Devices X 10919, 185-197, 2019
22019
Correction to Friis noise factors
AE Bangera
arXiv preprint arXiv:2209.00287, 2022
12022
Quantum-confined ultra-wideband Si-based absorbers by a non-lithographic approach
AE Bangera, K Appaiah
Solar Energy Materials and Solar Cells 230, 111161, 2021
12021
A Noise Model for Multilayer Graded-Bandgap Avalanche Photodiodes
AE Bangera
arXiv preprint arXiv:2209.06729, 2022
2022
Method facilitating surface modifications for silicon-based surfaces
AE Bangera, K Appaiah
IN Patent 360,762, 2020
2020
System and method optimizing surface parameters for a substrate with thin film coatings
AE Bangera, K Appaiah, S Chakrabarti
IN Patent 428,535, 2020
2020
Surface modifications for ultra wideband optical applications in silicon based devices
AE Bangera
Mumbai, 0
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Articles 1–12