当前位置:
X-MOL 学术
›
ACS Appl. Energy Mater.
›
论文详情
Our official English website, www.x-mol.net, welcomes your
feedback! (Note: you will need to create a separate account there.)
Reversible Hydrogen Fixation and Release under Mild Conditions by Poly(vinylquinoxaline)
ACS Applied Energy Materials ( IF 5.4 ) Pub Date : 2020-06-16 00:00:00 , DOI: 10.1021/acsapm.0c00338 Kouki Oka , Yusuke Kaiwa , Shuhei Furukawa , Hiroyuki Nishide , Kenichi Oyaizu
ACS Applied Energy Materials ( IF 5.4 ) Pub Date : 2020-06-16 00:00:00 , DOI: 10.1021/acsapm.0c00338 Kouki Oka , Yusuke Kaiwa , Shuhei Furukawa , Hiroyuki Nishide , Kenichi Oyaizu
A polymeric hydrogen carrier with reversible H2 storage capability was developed by incorporating a quinoxaline/tetrahydroquinoxaline redox couple into an aliphatic polymer chain. The quinoxaline unit was designed with a view to significantly increase the mass H2 storage density in the polymer up to 2.6 wt % calculated for the repeating unit, compared with the previously reported density of 0.9 wt % for poly(vinylfluorenone). An iridium complex-catalyzed hydrogenation of quinoxaline was characterized by its reversibility according to temperature, giving rise to tetrahydroquinoxaline under mild conditions (60 °C and 1 atm of H2), which released H2 gas by simply warming in common organic solvents. Its polymer extension allowed quinoxaline to be a polymeric hydrogen carrier in a solid state, which was characterized by the inherent advantages of safety, moldability, and handling easiness. Poly(vinylquinoxaline) was prepared by the radical polymerization of vinylquinoxaline. Poly(vinylquinoxaline) swollen with γ-butyrolactone became a gel-like solid, which quantitatively released and then fixed H2 gas under mild conditions.
中文翻译:
聚(乙烯基喹喔啉)在温和条件下的可逆氢固定和释放
通过将喹喔啉/四氢喹喔啉氧化还原对引入脂族聚合物链中,开发了具有可逆H 2储存能力的聚合物氢载体。设计喹喔啉单元的目的是与先前报道的聚(乙烯基芴酮)的密度为0.9重量%相比,显着提高聚合物中H 2的质量存储密度至重复单元计算的2.6重量%。铱配合物催化的喹喔啉氢化反应的特征在于其可逆温度,在温和条件下(60°C和1 atm H 2)产生四氢喹喔啉,并释放出H 2只需在常见的有机溶剂中加热即可产生气体。它的聚合物延伸使喹喔啉成为固态的聚合物氢载体,其特点是安全性,可模塑性和操作简便性等固有优势。通过乙烯基喹喔啉的自由基聚合制备聚(乙烯基喹喔啉)。用γ-丁内酯溶胀的聚(乙烯基喹喔啉)变成凝胶状固体,在温和条件下定量释放并固定H 2气体。
更新日期:2020-06-16
中文翻译:
聚(乙烯基喹喔啉)在温和条件下的可逆氢固定和释放
通过将喹喔啉/四氢喹喔啉氧化还原对引入脂族聚合物链中,开发了具有可逆H 2储存能力的聚合物氢载体。设计喹喔啉单元的目的是与先前报道的聚(乙烯基芴酮)的密度为0.9重量%相比,显着提高聚合物中H 2的质量存储密度至重复单元计算的2.6重量%。铱配合物催化的喹喔啉氢化反应的特征在于其可逆温度,在温和条件下(60°C和1 atm H 2)产生四氢喹喔啉,并释放出H 2只需在常见的有机溶剂中加热即可产生气体。它的聚合物延伸使喹喔啉成为固态的聚合物氢载体,其特点是安全性,可模塑性和操作简便性等固有优势。通过乙烯基喹喔啉的自由基聚合制备聚(乙烯基喹喔啉)。用γ-丁内酯溶胀的聚(乙烯基喹喔啉)变成凝胶状固体,在温和条件下定量释放并固定H 2气体。