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Lalitha Ganapatibhotla
Lalitha Ganapatibhotla
3M
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Title
Cited by
Cited by
Year
PEGylated imidazolium ionic liquid electrolytes: thermophysical and electrochemical properties
LVNR Ganapatibhotla, J Zheng, D Roy, S Krishnan
Chemistry of Materials 22 (23), 6347-6360, 2010
1192010
Interplay of surface chemistry and ion content in nanoparticle-filled solid polymer electrolytes
LVNR Ganapatibhotla, JK Maranas
Macromolecules 47 (11), 3625-3634, 2014
542014
Ionic liquids with fluorinated block-oligomer tails: Influence of self-assembly on transport properties
LVNR Ganapatibhotla, L Wu, J Zheng, X Jia, D Roy, JB McLaughlin, ...
Journal of Materials Chemistry 21 (48), 19275-19285, 2011
352011
Influence of thermal history and humidity on the ionic conductivity of nanoparticle‐filled solid polymer electrolytes
SK Fullerton‐Shirey, LVNR Ganapatibhotla, W Shi, JK Maranas
Journal of Polymer Science Part B: Polymer Physics 49 (21), 1496-1505, 2011
322011
Solid organic electrolytes
S Krishnan, L Ganapatibhotla, D Roy, J Zheng
US Patent 10,297,394, 2019
62019
Solid organic electrolytes
S Krishnan, L Ganapatibhotla, D Roy, J Zheng
US Patent 9,293,786, 2016
52016
Nanofilled solid polymer electrolytes
J Maranas, Z Pengfei, LV Ganapatibhotla
US Patent 10,608,281, 2020
32020
Composition including a polythiol, a polyepoxide, a polymeric catalyst, and a conductive filler and methods relating to the composition
LVNR Ganapatibhotla, H Sahouani, JD Zook, HN Kinney
US Patent App. 17/294,927, 2022
22022
Thermal Conductivities of PZT Piezoelectric Ceramics under Different Electrical Boundary Conditions
HN Shekhan, EA Gurdal, L Ganapatibhotla, JK Maranas, R Staut, ...
Insight-Material Science 3 (1), 301, 2020
22020
The effect of electrical boundary conditions on the thermal properties of ferroelectric piezoelectric ceramics
HN Shekhani, EA Gurdal, L Ganapatibhotla, JK Maranas, R Staut, ...
arXiv preprint arXiv:1605.04836, 2016
22016
Synthesis and Characterzation of Alkylated, Pegylated and Fluorinated Imidazolium Iodides as Potential Electrolytes for Dye-sensitized Solar Cells: A Thesis
LVNR Ganapatibhotla
Clarkson University, 2010
22010
Tuning filler shape, surface chemistry and ion content in nanofilled polymer electrolytes
LVNR Ganapatibhotla
The Pennsylvania State University, 2014
12014
High Aspect Ratio Nanofillers for Solid Polymer Electrolytes
L Ganapatibhotla, J Maranas
APS March Meeting Abstracts 2013, N33. 007, 2013
12013
Curable compositions, articles therefrom, and methods of making and using same
LVNR Ganapatibhotla, MA Kropp, EM FRITZ, AT Jung
US Patent App. 18/249,429, 2023
2023
Curable compositions, articles therefrom, and methods of making and using same
LVNR Ganapatibhotla, MA Kropp
US Patent App. 17/294,012, 2022
2022
Composition including a polythiol, a polyepoxide, an amine catalyst, and a conductive filler and methods relating to the composition
LVNR Ganapatibhotla, HN Kinney, WS Mahoney, JD Zook
US Patent App. 17/285,200, 2021
2021
Polymer comprising hydroxy groups and tertiary amine groups suitable for use as a catalyst
H Sahouani, LVNR Ganapatibhotla, HN Kinney, JD Zook
US Patent App. 17/283,084, 2021
2021
Effect of Eutectic Concentration on Conductivity in PEO: LiX Based Solid Polymer Electrolytes
P Zhan, L Ganapatibhotla, J Maranas
APS March Meeting Abstracts 2016, C33. 009, 2016
2016
Does filler surface chemistry impact filler dispersion, polymer dynamics and conductivity in nanofilled solid polymer electrolytes?
L Ganapatibhotla, J Maranas
APS March Meeting Abstracts 2012, X47. 008, 2012
2012
Solid Organic Electrolytes and Ionic Liquids, with Poly(ethylene glycol) and Semifluorinated Alkyl Side Chains, for Photovoltaic and Energy Storage Applications
Sitaraman Krishnan, Lalitha V. N. R. Ganapatibhotla, Jianping Zheng and ...
AIChE, 2010
2010
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Articles 1–20