Academic Identity
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Orcid Id 0000-0001-9353-9950 -
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Researcher Id GQV-8978-2022 -
Google Scholar Id Qnd41esAAAAJ
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Dr Anshuman Dalvi
- Professor
- Birla Institute of Technology and Science, Pilani
Publications 1995 - 2024
Publications
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147
Journal Articles
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5
Book Chapter
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19
Conference
Proceedings -
14
Review
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4
Projects
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32
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13
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12
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119
Citations / H-Index
4450
Citations
35
h-index
4042
Citations
Altmetrics
94
78
530
2285
55
Google Scholar
Expertise
Condensed Matter Physics
Development and characterization of Na+ ion polymer-NASICON hybrids and Na+ ion batteries Development and characterization of Li+ ion polymer-NASICON hybrids and Li+ ion batteries All-solid state Li+ and Na+ ion Supercapacitor fabrication and testing Ionic-Liquid glass composites for all-solid-state battery and supercapacitor applications Sol-gel derived NASICON based systems: fundamentals and applications Glass-ceramics, glasses, polymer composites based energy storage materials.
Personal Information
Dr Anshuman Dalvi
Male
Birla Institute of Technology and Science, Pilani, Vidya Vihar
Pilani, Rajasthan, - 333031
Qualification
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Ph.D
Indian Institute of Technology Kanpur
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M. Sc.
Devi Ahilya Vishwavidyalaya
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B. Sc.
Holkar Science College, DAVV Indore
Honours and Awards
2014
INSA Fellowship for bilateral international exchange programme to work in WUT Poland
Indian National Science Academy
2014
INSA Fellowship for bilateral international exchange programme to work in WUT Poland
Indian National Science Academy
Doctoral Theses Guided
2022
NASICON-structured nanocrystallites in the polymer matrix: Assessment of electrical transport and applications to All-solid-state supercapacitors
M. Dinachandra Singh, BITS Pilani
2020
Development of Li+ - nasicon based glass- ceramic composites
Sharma, Neelakshi, Birla Institute of Technology and Science Pilani
2020
Silica Gel based Li+ ion solid electrolytes: Studies on structure, electrical transport and supercapacitance
Rajinder Kaswan Sivran, BITS Pilani
2022
NASICON-structured nanocrystallites in the polymer matrix: Assessment of electrical transport and applications to All-solid-state supercapacitors
M. Dinachandra Singh, BITS Pilani
2020
Development of Li+ - nasicon based glass- ceramic composites
Sharma, Neelakshi, Birla Institute of Technology and Science Pilani
2020
Silica Gel based Li+ ion solid electrolytes: Studies on structure, electrical transport and supercapacitance
Rajinder Kaswan Sivran, BITS Pilani
2015
Assessment of electrical conductivity-structure correlation in li+ ion conducting oxide glasses and glass-ceramic nanocomposites
Rathore, Munesh, Birla Institute of Technology and Science Pilani
2012
Thermal stability investigation on ag+ ion conduction superionic glasses and glass-ceramic nanocomposites
Gupta, Neha, Birla Institute of Technology and Science Pilani
