CAJ | 학술논문

采用第一性原理方法研究了掺杂过渡金属Scandium（Sc）原子对C70富勒烯储氢性能的影响.通过吸附能等参数比较了金属Sc原子在C70富勒烯的五元环和六元环上的吸附强度,进而分析了C70富勒烯吸附金属Sc原子后的储氢性能.研究结果表明,当五元环全部吸附上12个Sc原子后,每个金属Sc原子最大可吸附四个氢分子,系统的储氢率可达6.50%.本文为未来研究高储氢材料提供了一个可探索的方向.
채용제일성원리방법연구료참잡과도금속Scandium（Sc）원자대C70부륵희저경성능적영향.통과흡부능등삼수비교료금속Sc원자재C70부륵희적오원배화륙원배상적흡부강도,진이분석료C70부륵희흡부금속Sc원자후적저경성능.연구결과표명,당오원배전부흡부상12개Sc원자후,매개금속Sc원자최대가흡부사개경분자,계통적저경솔가체6.50%.본문위미래연구고저경재료제공료일개가탐색적방향.
We report a first principles study on Scandium-decorated C70 fullerenes for hydrogen storage.It is demonstrated that the Sc atom can absorb firmly on the hexagon（H）site and pentagon（P）site by comparing the binding energy and other parameters.The results show that with four hydrogen molecules attached to per Sc atom on the P site,the Sc-decorated C70 fullerenes can store up to 6.50wt% of hydrogen.This results prove new routes to hydrogen storage in the future and advance our understanding of reversible hydrogen storage in fullerenes.