0428同步年報-2021-全

026 ACTIVITY REPORT 2021 can achieve a high gas separation performance. These observations were also identified with the molecular simulation results in this work. The strategy of using rigid MOF with an ideal size of pore aperture could open possibilities to advance new MOF materials for membrane separations. (Reported by Da-Shiuan Chiou, National Taiwan University) This report features the work of Dun-Yen Kang and his collaborators published in Adv. Funct. Mater. 31 , 2006924 (2021). TPS 09A Temporally Coherent X-ray Diffraction • XRD • Materials Science, Chemical Engineering, Membrane Gas Separation Reference 1. D. S. Chiou, H. J. Yu, T. H. Hung, Q. Lyu, Chang, C. K., J. S. Lee, L. C. Lin, D. Y. Kang, Adv. Funct. Mater. 31 , 2006924 (2021). Fig. 2 : (a) Time-resolved powder XRD patterns of CAU-10-H exposed to CO 2 under 3 bar. (b) Experimental and simulated XRD patterns of CAU-10-H before and after exposure to CO 2 under 3 bar for 30 minutes. (c,d) Time-resolved powder XRD patterns of CAU-10-H exposed to N 2 and CH 4 under 3 bar. [Reproduced from Ref. 1] Fig. 3 : Single-gas and mixed-gas permeation test on CAU-10-H. (a) Gas permeance of H 2 , CO 2 , N 2 and CH 4 and (b) selectivity of gas pairs. [Reproduced from Ref. 1]