Search Results - "Moodakare, Sahana B"

Quasi-Gel Polymer Electrolyte Interfaced with Electrodes through Solvent-Swollen Poly(ethylene oxide) for High-Performance Lithium/Lithium-Ion Batteries by Babu, Mohana Priya, Moodakare, Sahana B., Vedarajan, Raman, Ramanujam, Kothandaraman

“…Solid polymer electrolytes (SPEs) are regarded as a superior alternative to traditional liquid electrolytes of lithium-ion batteries (LIBs) due to their…”
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Concentration Gradient-Driven Aluminum Diffusion in a Single-Step Coprecipitation of a Compositionally Graded Precursor for LiNi0.8Co0.135Al0.065O2 with Mitigated Irreversibility of H2 ↔ H3 Phase Transition by Natarajan, Sasikala, Moodakare, Sahana B, Haridoss, Prathap, Gopalan, Raghavan

“…LiNi1–x–y Co x Al y O2 (NCA) possessing a nano-/micro hierarchical architecture delivers a high specific capacity of 200 mAh/g with an upper cutoff voltage of…”
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Crystal Chemistry and Ionic Conductivity of the NASICON-Related Phases in the Li3-xNaxV2(PO4)3 System by Semykina, Daria O, Podgornova, Olga A, Moodakare, Sahana B, Vedarajan, Raman, Kosova, Nina V

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Crystal Chemistry and Ionic Conductivity of the NASICON-Related Phases in the Li 3- x Na x V 2 (PO 4 ) 3 System by Semykina, Daria O, Podgornova, Olga A, Moodakare, Sahana B, Vedarajan, Raman, Kosova, Nina V

“…In the present work, we studied crystal phases in the Li Na V (PO ) system over a wide range of prepared by four synthesis methods: mechanochemically assisted…”
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Standardization of ionic conductivity measurements in Li1.3Al0.3Ti1.7(PO4)3-polymer composite electrolytes by Sara Jacob, Megha, Doddi, Nikhil, Shanmugam, Vasu, Ebenezer Prasanna, Gopikrishnan, Peddi, Mahender, Vedarajan, Raman, Moodakare, Sahana B., Gopalan, Raghavan

“…[Display omitted] •Apart from composition variations, there exist several other parameters that notably affect ionic conductivity values.•Role of frequency and…”
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In-situ carbon encapsulation of LiNi1/3Co1/3Mn1/3O2 using pillared ethylene glycol trapped in the metal hydroxide interlayers for enhanced cyclic stability by Vasu, S., Sahana, Moodakare B., Sudakar, Chandran, Gopalan, R., Sundararajan, G.

“…[Display omitted] •Uniform C encapsulation on LNMCO under air ambient by an in-situ pyrolysis.•Structurally trapped ethylene glycol in metal hydroxide layers…”
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TiNb2O7-Keratin derived carbon nanocomposites as novel anode materials for high-capacity lithium-ion batteries by Thiyagarajan, Ganesh Babu, Shanmugam, Vasu, Wilhelm, Michael, Mathur, Sanjay, Moodakare, Sahana B., Kumar, Ravi

“…TiNb2O7/carbon nanocomposites synthesized through a simple, surfactant assisted precursor route is reported as a promising alternative anode material for…”
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Infrared Spectroscopy Signatures of Aluminum Segregation and Partial Oxygen Substitution by Sulfur in LiNi0.8Co0.15Al0.05O2 by Natarajan, Sasikala, Moodakare, Sahana B, Shanmugam, Vasu, Haridoss, Prathap, Gopalan, Raghavan

“…Substitution of aluminum in nickel-rich layered oxides plays a vital role in structural and thermal stability. Hence comprehension of aluminum distribution in…”
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Surface oxygen vacancy engineering and physical protection by in-situ carbon coating process of lithium rich layered oxide by Shanmugam, Vasu, Natarajan, Sasikala, Lobo, Laurel Simon, Mathur, Ankita, Sahana, Moodakare B., Sundararajan, G., Gopalan, R.

“…Lithium-rich layered oxide (LLO) with a large specific capacity (>250 mAhg−1) and the wider voltage window (2.0–4.8 V) delivers an energy density of about…”
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Crystal Chemistry and Ionic Conductivity of the NASICON-Related Phases in the Li3–x Na x V2(PO4)3 System by Semykina, Daria O., Podgornova, Olga A., Moodakare, Sahana B., Vedarajan, Raman, Kosova, Nina V.

“…In the present work, we studied crystal phases in the Li3–x Na x V2(PO4)3 system over a wide range of x prepared by four synthesis methods: mechanochemically…”
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Concentration Gradient-Driven Aluminum Diffusion in a Single-Step Coprecipitation of a Compositionally Graded Precursor for LiNi 0.8 Co 0.135 Al 0.065 O 2 with Mitigated Irreversibility of H2 ↔ H3 Phase Transition by Natarajan, Sasikala, Moodakare, Sahana B., Haridoss, Prathap, Gopalan, Raghavan

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Comprehensive effort on electrode slurry preparation for better electrochemical performance of LiFePO4 battery by Konda, Kumari, Moodakare, Sahana B., Kumar, P. Logesh, Battabyal, Manjusha, Seth, Jyoti R., Juvekar, Vinay A., Gopalan, Raghavan

“…For a given proportion of active material, conductive agent, and binder, performance of the lithium ion battery depends on microstructure of the electrode…”
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Capacity degradation of lithium-ion cell: The role of free carbon black content in the slurry and drying induced cracks in LiFePO4 electrode by Konda, Kumari, Jacob, Megha Sara, Seth, Jyoti R., Juvekar, Vinay A., Gopalan, Raghavan, Moodakare, Sahana B.

“…Conductive additives, such as carbon black (CB), are incorporated into LiFePO4 (LFP) electrodes to address their low electronic conductivity. Within the…”
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Multilayer Graphene as a Cathode Conductive Additive in Lithium-Ion Pouch Cells: A Correlation of Changes in Electrolyte Uptake and Composition of the Electrode Electrolyte Interface with Enhanced Cycling Stability by Peddi, Mahender, Moodakare, Sahana B., Budumuru, Akshay Kumar, Muthusamy, Kamaraj, Sundararajan, Govindan, Gopalan, Raghavan

“…The electrochemical performance of the lithium-ion battery is significantly affected by the choice of electrode conductive additives. In this study, a mixed…”
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Infrared Spectroscopy Signatures of Aluminum Segregation and Partial Oxygen Substitution by Sulfur in LiNi 0.8 Co 0.15 Al 0.05 O 2 by Natarajan, Sasikala, Moodakare, Sahana B., Shanmugam, Vasu, Haridoss, Prathap, Gopalan, Raghavan

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