Institute for Materials and Processes. School of Engineering and Electronics. The University of Edinburgh.King’s Buildings. Mayfield Road. EH9 3JL Edinburgh. UK;
Institute for Materials and Processes. School of Engineering and Electronics. The University of Edinburgh.King’s Buildings. Mayfield Road. EH9 3JL Edinburgh. UK;
Dept. de Quimica Inorganica. Facultad de Ciencias. Universidad de Granada.Av. Fuentenueva s. 18071 Granada. SPAIN;
Dept. de Quimica Inorganica. Facultad de Ciencias. Universidad de Granada.Av. Fuentenueva s. 18071 Granada. SPAIN;
Institute for Materials and Processes. School of Engineering and Electronics. The University of Edinburgh.King’s Buildings. Mayfield Road. EH9 3JL Edinburgh. UK;
A. Glass-like carbon; C. Molecular simulation; D. Adsorption properties.;
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
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
机译:高压纯气体和玻璃碳上的多组分吸附
机译:根据结构参数和高能异质性(通过甲烷和氢的高压吸附确定),在活性炭上存储能量气体。
机译:使用单溶质参数预测活性炭对多组分溶液的吸附。第二部分—拟议方程式
机译:从活性炭水中吸附水中水中的酚类污染物:对单一和多组分吸附等温线的洞察
机译:一氧化碳高压加氢成异链烷烃(异构化合成)。第二部分。多组分催化剂及二甲醚反应实验