Hydrogen Adsorption in Flame Synthesized and Lithium Intercalated Carbon Nanofibers-A Comparative Study

Dhand Vivek; Prasad J. Sarada; Rao M. Venkateswer; Kalluri Sujith; Jain Pawan Kumar; Sreedhar B.

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Hydrogen Adsorption in Flame Synthesized and Lithium Intercalated Carbon Nanofibers-A Comparative Study

机译：火焰合成和锂嵌入碳纳米纤维中的氢吸附-比较研究

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Carbon nanofibers (CNF) have been synthesized under partial combustion conditions in a flame reactor using different mixtures of hydrocarbon gases in the presence and absence of precursors. The hydrogen (H-2) adsorption studies have been carried out using a high pressure Sievert's apparatus maintained at a constant temperature (24 degrees C). The flame synthesized CNFs showed high degree of H-2 adsorption capacities at 100 atm pressure. The highest H-2 capacities recorded have been 4.1 wt% [for CNF produced by liquefied petroleum gas (LPG)-Air (E-17)], 3.7 wt% [for nano carbons produced by Methane-Acetylene-Air (EMAC-4)] and 5.04 wt% for [Lithium intercalated sample (Li-EMAC-4)] respectively.

机译：碳纳米纤维（CNF）已在火焰反应器中的部分燃烧条件下，使用碳氢化合物气体的不同混合物在存在和不存在前体的条件下合成。氢气（H-2）吸附研究是使用维持在恒定温度（24摄氏度）的高压Sievert's设备进行的。火焰合成的CNF在100个大气压下显示出高度的H-2吸附能力。记录的最高H-2容量为4.1 wt％[对于液化石油气（LPG）-空气（E-17）生产的CNF]，3.7 wt％[对于甲烷-乙炔-空气（EMAC-4生产的纳米碳））和[嵌入锂的样品（Li-EMAC-4）]分别为5.04 wt％。

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《Journal of nanoscience and nanotechnology》 |2015年第1期|共5页
作者
Dhand Vivek; Prasad J. Sarada; Rao M. Venkateswer; Kalluri Sujith; Jain Pawan Kumar; Sreedhar B.;
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正文语种 eng
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Hydrogen; Adsorption; Carbon Nanofibers; Flame Synthesis; Sievert's Apparatus; Lithium; Catalyzed; LPG;

机译：氢;吸附;碳纳米纤维;火焰合成;Sievert仪器;锂;催化;液化石油气;

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1. Hydrogen Adsorption in Flame Synthesized and Lithium Intercalated Carbon Nanofibers-A Comparative Study [J] . Dhand Vivek, Prasad J. Sarada, Rao M. Venkateswer, Journal of nanoscience and nanotechnology . 2015,第1期

机译：火焰合成和锂嵌入碳纳米纤维中的氢吸附-比较研究
2. Studies of yield and nature of carbon nanostructures synthesized by pyrolysis of ferrocene and hydrogen adsorption studies of carbon nanotubes [J] . M.M. Shaijumon, S. Ramaprabhu International journal of hydrogen energy . 2005,第3期

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Hydrogen Adsorption in Flame Synthesized and Lithium Intercalated Carbon Nanofibers-A Comparative Study

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