Self-powered, ultrasensitive, room temperature humidity sensors using SnS2 nanofilms A Rambabu, DK Singh, R Pant, KK Nanda, SB Krupanidhi
Scientific Reports 10 (1), 14611, 2020
27 2020 Iron-Based Mixed Phosphate Na4 Fe3 (PO4 )2 P2 O7 Thin Films for Sodium-Ion Microbatteries B Senthilkumar, A Rambabu, C Murugesan, SB Krupanidhi, P Barpanda
ACS omega 5 (13), 7219-7224, 2020
18 2020 In-situ deposition of sodium titanate thin film as anode for sodium-ion micro-batteries developed by pulsed laser deposition A Rambabu, B Senthilkumar, K Sada, SB Krupanidhi, P Barpanda
Journal of colloid and interface science 514, 117-121, 2018
16 2018 An overview of nanostructured Li-based thin film micro-batteries A Rambabu, SB Krupanidhi, P Barpanda
12 2019 Preferentially oriented SrLi2Ti6O14 thin film anode for Li-ion micro-batteries fabricated by pulsed laser deposition A Rambabu, B Senthilkumar, A Dayamani, SB Krupanidhi, P Barpanda
Electrochimica Acta 269, 212-216, 2018
8 2018 Impact of Sm-substitution and microwave sintering on dielectric and mechanical properties of SrBi4 Ti4 O15 ceramics A Rambabu, KCJ Raju
Journal of Materials Science: Materials in Electronics 31, 19698-19712, 2020
6 2020 Na2Ti6O13 thin films as anode for thin film sodium ion batteries A Rambabu, B Kishore, N Munichandraiah, SB Krupanidhi, P Barpanda
AIP Conference Proceedings 1832 (1), 2017
6 2017 Nanomechanical and microwave dielectric properties of SrBi4 Ti4 O15 thin films sputtered on amorphous substrates by rf sputtering A Rambabu, S Bashaiah, KC James Raju
Journal of Materials Science: Materials in Electronics 25, 1172-1179, 2014
6 2014 Effect of Particle Size and Sintering Procedure on Microstructure, Dielectric, Ferroelectric and Mechanical Properties of SrBi4Ti4O15 A Rambabu, KCJ Raju
Transactions of the Indian Ceramic Society 70 (3), 135-141, 2011
5 2011 Crystal orientation dependent microwave dielectric properties of sputtered SBTi thin films on fused silica substrates A Rambabu, K Sudheendran, KC James Raju
Journal of Materials Science: Materials in Electronics 24, 2169-2175, 2013
4 2013 Linear and nonlinear optical properties of SrBi4Ti4O15 thin films A Rambabu, ES Reddy, S Hamad, KC Raju, SV Rao
AIP Conference Proceedings 1728 (1), 2016
2 2016 Role of oxygen mixing percentage on r.f sputtered and microwave annealed crystalline A Rambabu, ES Reddy, KCJ Raju
AIP Conference Proceedings 1591 (1), 878-880, 2014
2 2014 Mechanical Properties of Sputter Deposited Strontium Bismuth Titanate Thin Films by Nanoindentation and Nanoscratch Techniques A Rambabu, KC Raju
Journal of Advanced Microscopy Research 7 (4), 257-263, 2012
2 2012 Minimized thermal effects and strong two-photon absorption of aluminum, silver doped platinum bi-metal nanoparticles A Rambabu, S Sheetal, S Akanksha, Y Balaji, SV Rao, S Hamad, ...
Optics & Laser Technology 160, 109032, 2023
1 2023 The crystalline nature and samarium substitution improves the nanomechanical and microwave dielectric properties of SBTi thin films A Rambabu, KCJ Raju
Physica B: Condensed Matter 626, 413557, 2022
1 2022 Tailoring the optical properties of SrBi4Ti4O15 thin films by RF sputtering process parameters A Rambabu, KCJ Raju
Materials Today: Proceedings 47, 4413-4417, 2021
1 2021 Effect of increasing lanthanum substitution and the sintering procedures on the properties of SrBi4 Ti4 O15 ceramics A Rambabu, KC James Raju
Bulletin of Materials Science 38, 1375-1380, 2015
1 2015 Variation in mechanical properties with substrate temperature of SbTi thin film deposited by RF sputtering technique A Rambabu, A Tumuluri, KC James Raju
Advanced Materials Letters 5 (5), 292-296, 2014
1 2014 Nanomechanical and Dielectric Properties of Sol-Gel Derived PZT Thin Films Annealed with Microwave Energy A Rambabu, K Sudheendran, KCJ Raju
Integrated Ferroelectrics 119 (1), 13-21, 2010
1 2010 Effect of Oxygen Mixing Percentage on Mechanical and Microwave Dielectric Properties of SrBi4 Ti4 O15 Thin Films A Rambabu, KC Raju, PP Kumar, RSS Nuvvula, B Khan
Advances in Condensed Matter Physics 2023, 2023
2023 
Dr.K.C.James Raju, ProfessorCentre for Advanced Studies in Electronics Science and Technology (CASEST), School of PhysicsVerified email at uohyd.ernet.in
