| Literature DB >> 25939492 |
Jie Liang1,2, Jie Su2, Xiaodan Luo1, Yingxia Wang3, Haoquan Zheng2, Hong Chen2,4, Xiaodong Zou2, Jianhua Lin5, Junliang Sun6,7.
Abstract
One of the challenges in materials science has been to prepare crystalline inorganic compounds with mesopores. Although several design strategies have been developed to address the challenge, expansion of pore sizes in inorganic materials is more difficult compared to that for metal-organic frameworks. Herein, we designed a novel mesoporous germanate PKU-17 with 3D 48×16×16-ring channels by introducing two large building units (Ge10 and Ge7 clusters) into the same framework. The key for this design strategy is the selection of 2-propanolamine (MIPA), which serves as the terminal species to promote the crystallization of Ge7 clusters. Moreover, it is responsible for the coexistence of Ge10 and Ge7 clusters. To our knowledge, the discovery of PKU-17 sets a new record in pore sizes among germanates. It is also the first germanate that exhibits a good selectivity toward CO2 over N2 and CH4 .Entities:
Keywords: cluster compounds; gas adsorption; germanates; porous materials; zeolite analogues
Year: 2015 PMID: 25939492 DOI: 10.1002/anie.201501718
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336