Search Results - "Hanumantha, Prashanth J."

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  1. 1
    Electrochemically active and robust cobalt doped copper phosphosulfide electro-catalysts for hydrogen evolution reaction in electrolytic and photoelectrochemical water splitting

    Electrochemically active and robust cobalt doped copper phosphosulfide electro-catalysts for hydrogen evolution reaction in electrolytic and photoelectrochemical water splitting by Patel, Prasad Prakash, Velikokhatnyi, Oleg I., Ghadge, Shrinath D., Hanumantha, Prashanth J., Datta, Moni Kanchan, Kuruba, Ramalinga, Gattu, Bharat, Shanthi, Pavithra Murugavel, Kumta, Prashant N.

    Published in International journal of hydrogen energy (19-04-2018)
    “…The area of non-noble metals based electro-catalysts with electrochemical activity and stability similar or superior to that of noble metal electro-catalyst…”
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  2. 2
    Understanding the Origin of Irreversible Capacity loss in Non-Carbonized Carbonate − based Metal Organic Framework (MOF) Sulfur hosts for Lithium − Sulfur battery

    Understanding the Origin of Irreversible Capacity loss in Non-Carbonized Carbonate − based Metal Organic Framework (MOF) Sulfur hosts for Lithium − Sulfur battery by Shanthi, Pavithra M., Hanumantha, Prashanth J., Gattu, Bharat, Sweeney, Matthew, Datta, Moni K., Kumta, Prashant N.

    Published in Electrochimica acta (01-03-2017)
    “…[Display omitted] •Sulfur was vapor infiltrated into nanoporous metal organic framework (S – MOFs).•XPS analysis of S – MOFs shows binding of sulfur to…”
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  3. 3
    Novel Composite Polymer Electrolytes of PVdF-HFP Derived by Electrospinning with Enhanced Li-Ion Conductivities for Rechargeable Lithium–Sulfur Batteries

    Novel Composite Polymer Electrolytes of PVdF-HFP Derived by Electrospinning with Enhanced Li-Ion Conductivities for Rechargeable Lithium–Sulfur Batteries by M. Shanthi, Pavithra, J. Hanumantha, Prashanth, Albuquerque, Taciana, Gattu, Bharat, Kumta, Prashant N

    Published in ACS applied energy materials (26-02-2018)
    “…Composites of poly­(vinylidene fluoride-co-hexafluoro propylene) (PVdF-HFP) incorporating 10 wt % bis­(trifluoromethane)­sulfonimide lithium salt (LiTFSI) and…”
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  4. 4
    Understanding the Origin of Irreversible Capacity loss in Non-Carbonized Carbonate - based Metal Organic Framework (MOF) Sulfur hosts for Lithium - Sulfur battery

    Understanding the Origin of Irreversible Capacity loss in Non-Carbonized Carbonate - based Metal Organic Framework (MOF) Sulfur hosts for Lithium - Sulfur battery by Shanthi, Pavithra M., Hanumantha, Prashanth J., Gattu, Bharat, Sweeney, Matthew, Datta, Moni K., Kumta, Prashant N.

    Published in Electrochimica acta (20-01-2017)
    “…Li-Sulfur (Li-S) batteries are emergent next-generation energy storage devices due to their very high specific energy density (~2567 Wh g-1) but are limited by…”
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  5. 5
    Effective Bipyridine and Pyrazine‐Based Polysulfide Dissolution Resistant Complex Framework Material Systems for High Capacity Rechargeable Lithium–Sulfur Batteries

    Effective Bipyridine and Pyrazine‐Based Polysulfide Dissolution Resistant Complex Framework Material Systems for High Capacity Rechargeable Lithium–Sulfur Batteries by Shanthi, Pavithra M., Hanumantha, Prashanth J., Kuruba, Ramalinga, Gattu, Bharat, Datta, Moni K., Kumta, Prashant N.

    Published in Energy technology (Weinheim, Germany) (01-12-2019)
    “…Lithium–sulfur (Li–S) batteries with high theoretical capacity (≈1650 mAh g−1) and specific energy density (≈2567 Wh g−1) have not achieved commercialization…”
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  6. 6
    Effective Bipyridine and Pyrazine–Based Polysulfide Dissolution Resistant Complex Framework Material Systems for High Capacity Rechargeable Lithium–Sulfur Batteries

    Effective Bipyridine and Pyrazine–Based Polysulfide Dissolution Resistant Complex Framework Material Systems for High Capacity Rechargeable Lithium–Sulfur Batteries by Shanthi, Pavithra M., Hanumantha, Prashanth J., Kuruba, Ramalinga, Gattu, Bharat, Datta, Moni K., Kumta, Prashant N.

    Published in Energy technology (Weinheim, Germany) (11-04-2019)
    “…Lithium–sulfur (Li–S) batteries with high theoretical capacity (≈1650 mAh g–1) and specific energy density (≈2567 Wh g–1) have not achieved commercialization…”
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  7. 7
    Electrochemically active and robust cobalt doped copper phosphosulfide electro-catalysts for hydrogen evolution reaction in electrolytic and photoelectrochemical water splitting

    Electrochemically active and robust cobalt doped copper phosphosulfide electro-catalysts for hydrogen evolution reaction in electrolytic and photoelectrochemical water splitting by Patel, Prasad Prakash, Velikokhatnyi, Oleg I., Ghadge, Shrinath D., Hanumantha, Prashanth J., Datta, Moni Kanchan, Kuruba, Ramalinga, Gattu, Bharat, Shanthi, Pavithra Murugavel, Kumta, Prashant N.

    Published in International journal of hydrogen energy (01-04-2018)
    “…Not provided…”
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