Hydrogen adsorption properties of carbide-derived carbons at ambient temperature and high pressure

Naheed Lubna; Koppel Miriam; Paalo Maarja; Alsabawi Khadija; Lamb Krystina E.; Gray Evan MacA.; Janes Alar; Webb Colin J.

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Hydrogen adsorption properties of carbide-derived carbons at ambient temperature and high pressure

机译：碳化物衍生碳在环境温度和高压下的氢吸附性能

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Properties of the adsorbed hydrogen phase have been studied for hydrogen adsorption in three carbide derived carbons: SiC-CDC, steam/CO2 activated SiC-CDC and TiC-CDC. Using the excess hydrogen uptake isotherm at hydrogen pressures above 120 MPa where adsorption has finished, the adsorbate volume has been determined and the adsorbate density has been calculated at ambient temperatures. Absolute adsorption isotherms have been constructed by assuming the adsorbate volume is equivalent to the pore volume and is therefore constant. This study indicates that all three CDCs had the same maximum adsorbate density, with the adsorption proportional to the total pore volume. ? 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

机译：已经研究了吸附的氢相的性质，用于三种碳化物衍生的碳中的氢吸附：SiC-CDC，蒸汽/ CO2活化SiC-CDC和TIC-CDC。在氢气压力下使用过量的氢气摄取等温线，其中吸附已经完成，已经确定吸附体积，并且在环境温度下已经计算了吸附密度。通过假设吸附物体积相当于孔体积并且因此是恒定的，通过构建绝对吸附等温物。本研究表明，所有三种CDC具有相同的吸附密度，吸附与总孔体积成比例。还是 2021氢能出版物LLC。 elsevier有限公司出版。保留所有权利。

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《International journal of hydrogen energy 》 |2021年第29期| 15761-15772| 共12页
作者
Naheed Lubna; Koppel Miriam; Paalo Maarja; Alsabawi Khadija; Lamb Krystina E.; Gray Evan MacA.; Janes Alar; Webb Colin J.;
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作者单位

Griffith Univ Queensland Micro & Nanotechnol Ctr Nathan Qld 4111 Australia;

Univ Tartu Inst Chem Ravila 14a EE-50411 Tartu Estonia;

Univ Tartu Inst Chem Ravila 14a EE-50411 Tartu Estonia;

Griffith Univ Queensland Micro & Nanotechnol Ctr Nathan Qld 4111 Australia;

Griffith Univ Queensland Micro & Nanotechnol Ctr Nathan Qld 4111 Australia;

Griffith Univ Queensland Micro & Nanotechnol Ctr Nathan Qld 4111 Australia;

Univ Tartu Inst Chem Ravila 14a EE-50411 Tartu Estonia;

Griffith Univ Queensland Micro & Nanotechnol Ctr Nathan Qld 4111 Australia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
CDC; Surface area; Total pore volume; High pressure; Hydrogen adsorption; Adsorbate density;

机译：CDC;表面积;总孔体积;高压;氢吸附;吸附密度;

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1. DFT-Based Prediction of High-Pressure H_2 Adsorption on Porous Carbons at Ambient Temperatures from Low-Pressure Adsorption Data Measured at 77 K [J] . Jacek Jagiello, Alejandro Anson, M.Teresa Martinez The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006 ,第10期

机译：基于DFT的常温下基于77 K的低压吸附数据预测高压H_2在多孔碳上的吸附
2. DFT-Based Prediction of High-Pressure H_2 Adsorption on Porous Carbons at Ambient Temperatures from Low-Pressure Adsorption Data Measured at 77 K [J] . Jacek Jagiello, Alejandro Anson, M.Teresa Martinez The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2006 ,第10期

机译：基于DFT的常温下基于77 K的低压吸附数据预测高压H_2在多孔碳上的吸附
3. Hydrogen adsorption on microporous materials at ambient temperatures and pressures up to 50 MPa [J] . Tyler G. Voskuilen, Timothee L. Pourpoint, Anne M. Dailly Adsorption . 2012 ,第3a4期

机译：在环境温度和最高50 MPa的压力下，氢吸附在微孔材料上
4. HYDROGEN ADSORPTION ON CARBON MATERIALS AT HIGH PRESSURES AND DIFFERENT TEMPERATURES [C] . F. SUAREZ-GARCIA, M. JORDA-BENEYTO, D. LOZANO-CASTELLO, NATO Advanced Research Workshop on Recent Advances in Adsorption Processes for Environmental Protection and Security . 2008

机译：高压和不同温度下碳材料的氢吸附
5. Pressure - volume - temperature properties of carbon-dioxide, hydrogen, carbon-monoxide, and their binary mixtures. [D] . Boddu, Veera Mallu. 1988

机译：二氧化碳，氢气，一氧化碳及其二元混合物的压力-体积-温度特性。
6. Temperature-induced oligomerization of polycyclic aromatic hydrocarbons at ambient and high pressures [O] . Artem D. Chanyshev, Konstantin D. Litasov, Yoshihiro Furukawa, -1

机译：在常压和高压下温度引起的多环芳烃低聚
7. Adsorption Enthalpy Calculations of Hydrogen Adsorption at Ambient Temperature and Pressures Exceeding 300 bar [O] . Matthew Beckner, Anne Dailly 2013

机译：环境温度和压力下氢吸收的吸附焓计算超过300巴

Hydrogen adsorption properties of carbide-derived carbons at ambient temperature and high pressure

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