Li-CMP(0.5 wt% Li)和CMP在77K的氫吸附�、脫附等溫線
氫能源作為一種零汙染��、可ke再zai生sheng能neng源yuan日ri益yi受shou到dao重zhong視shi�����,並bing成cheng為wei潔jie淨jing能neng源yuan研yan究jiu領ling域yu的de國guo際ji前qian沿yan和he熱re點dian。儲chu氫qing問wen題ti是shi氫qing能neng源yuan領ling域yu的de一yi項xiang重zhong要yao課ke題ti。目mu前qian儲chu氫qing研yan究jiu包bao括kuo化hua學xue儲chu氫qing和he物wu理li儲chu氫qing兩liang個ge領ling域yu。物wu理li吸xi附fu利li用yong微wei孔kong材cai料liao物wu理li吸xi附fu氫qing分fen子zi���,因yin其qi在zai特te定ding條tiao件jian下xia對dui氫qing氣qi具ju有you良liang好hao��、可逆的熱力學吸附�����、脫附性能而受到廣泛研究。提高材料對氫氣的吸附作用使氫分子更容易�、更牢固地吸附在微孔材料的表麵或孔腔中����,已成為進一步提高微孔材料儲氫量的一條重要途徑。
zuijin��,zhongkeyuandalianhuaxuewuliyanjiusuodengweiqiaosuozaideyanjiuzujihezuozheshiyonglilizichanzajishu�,tigaoweikonggongejuhewuduiqingqidexifuhancongertigaocailiaodechuqingliang。lilunmonifaxian�,lilizizaigongetixishangduiqingqiyouzengqiangdexifuzuoyong��,keyishiqingfenzigenglaogudixifuzaiweikongcailiaozhong。shiyanshang�����,tongguocuihuajuhe1�,3���,5-三乙炔苯製備較大比表麵積的三維微孔共軛聚合物(CMP)作zuo為wei吸xi附fu載zai體ti����,其qi網wang絡luo結jie構gou中zhong的de堿jian性xing活huo性xing基ji團tuan碳tan碳tan叁san鍵jian吸xi附fu鋰li離li子zi。鋰li離li子zi有you效xiao提ti高gao了le材cai料liao對dui氫qing分fen子zi的de吸xi附fu焓han。研yan究jiu表biao明ming當dang鋰li離li子zi的de摻chan雜za比bi例li在zai0.5wt%時����,材料儲氫能力最強���,對氫氣的吸附焓為8.1KJ/mol。該材料在77K和1bar條件下����,儲氫量高達6.1wt%����,刷新了同等條件下的物理吸附儲氫的紀錄�,遠遠高於碳納米材料(3.0wt%)和金屬框架化合物(2.5wt%)。
該研究工作以通訊形式刊登在近期的《德國應用化學》(Angew. Chem. Int. Ed., 2010, 49, 3330-3333. DOI:10.1002/anie.200906936)��,並被選為熱點文章。
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