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Kumar,
Satish
Kumar,
Satish
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ItemNitrogen- and Boron-Doped Carbon Nanotube Electrodes in a Thermo-Electrochemical Cell(Georgia Institute of Technology, 2012) Salazar, Pablo F. ; Kumar, Satish ; Cola, Baratunde A.We explore the prospects of using doped carbon nanotube (CNT) electrodes to increase the output power of thermo-electrochemical cells (TECs). CNT buckypaper electrodes doped with nitrogen and boron were characterized using cyclic voltammetry, impedance spectroscopy, and TEC test with potassium ferri/ferrocyanide electrolyte. Both doping states increased the electrochemically active surface area of CNT electrodes. Electrostatic interactions with potassium ions altered the charge transfer kinetics for doped CNT electrodes; yet, the symmetry of the charge transfer remained approximately equal to that of pristine CNTs. In TEC test, accumulation of potassium ions at doped CNT electrodes was found to reduce short-circuit current.
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ItemStabilization and carbonization of gel spun polyacrylonitrile/single wall carbon nanotube composite fibers(Georgia Institute of Technology, 2007-02-28) Kumar, Satish ; Chae, Han Gi ; Minus, Marilyn ; Rasheed, Asif
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ItemPlastics, Rubbers, and Textiles in the Municipal Solid Waste in the United States(Georgia Institute of Technology, 2000-05-02) Kumar, Satish
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ItemRecycling of Carpet Waste by Injection and Compression Molding(Georgia Institute of Technology, 1997-05-19) Zhang, Yi ; Muzzy, John D. ; Kumar, SatishStudies have been carried out to convert carpet waste into valued products. Two common processes, injection and compression molding, can be used to recycle carpet waste. Two types of carpet waste have been recycled. One is edge trim carpet waste from manufacturing and the other one is separated polypropylene from post-consumer carpet waste. In injection molding, carpet waste was debulked, ground, dried and molded. In compression molding, the recycled carpet waste was combined with glass mat reinforcement. The compression molding process consists of debulking, stacking with glass mats and consolidation. The mechanical testing results are encouraging. The injection molded samples showed properties acceptable for many applications. The glass mat reinforced carpet waste made by compression molding had properties comparable to commercial virgin thermoplastics reinforced with glass mat.
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ItemPolymer Blends and Their Relevance to Fiber, Textile, and Carpet Waste Recycling(Georgia Institute of Technology, 1996-06-13) Kumar, Satish
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ItemStudy of the compression behavior of high performance fibers(Georgia Institute of Technology, 1995-09) Kumar, Satish
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ItemUnderstanding the hierarchical structure in the liquid crystalling polymeric fibers(Georgia Institute of Technology, 1992-05) Kumar, Satish