The metalloid-centered covalent organic framework has attracted great interestf rom both its structure and application.H eavier elements have seldomly been incorporated in the covalent organic frameworks, even if they exhibit special structural features and properties. Herein, we reportedt he first crystalline germanate covalent organic framework with hexacoordinated germanate linked by an anthracene linker.T he existence of counterion lithium ions in the framework provides ah igh CO 2 uptake of 88.5 cm 3 g À1 at 273 Kand ahighCO 2 /N 2 selectivity of 101. As ignificantly improved lithium ion conductivity of 0.25 mS cm À1 at room temperature was observed due to the soft germanium center.Covalento rganic frameworks (COFs) are highly crystalline porouso rganic materials linked by strong covalentb onds with designable features,w hich resulted in at unable topology and pore structure. During the last decade, COFs have witnessed a rapid development and found wide applications in gas adsorption and separation, catalysis, optoelectronics, chemical sensing, energy storage, etc. [1] Recently,aseries of ionic covalent organic frameworks has been constructed witha nionic or cationic structural motifs, which has attracted huge attention due to their potential applicationsi ng as adsorption,d ye adsorption, metal-ion adsorption,a ntimicrobial, catalysis and more importantly solid-state ion conduction. [2] The availability of anionic COFs is limited, most of them are connected by tetrahedral boron or hexahedral silicon. [2g,h,m] The elements over the third row have al arger atom radius andm ultiple valence and are ideal candidates for the ionic center. However,h eavier ele-ments have seldomly been incorporated in the covalentorganic frameworks, even if they exhibit special structural features and properties. [3] Porous crystalline germanate inorganic frameworks consisting of only GeÀOc lusters have been synthesized in the late 90s and attracted great interest since then. [4] Germanate inorganic frameworks exhibit ar ich structurald iversity due to the combination of av arious number of GeO 4 tetrahedron,G eO 5 trigonal bipyramids,a nd aG eO 6 octahedron.T he design and functionalization of at argeted germanate inorganic framework are extremely difficult partly due to the uncertain combination of germanate clusters. The isolation of single germanate node would facilitate the design and control synthesis of germanate frameworks. However,t he incorporation of ag ermanate cluster in the porous organicf ramework is largely unexplored.Herein, we report the first crystalline germanate covalent organic framework (Ge-COF-1) by the combination of ah ex-coordinated germanate center with at etrahydroxylated anthracene in high yield. The resulting germanate covalent organic framework exhibits ah ighC O 2 uptake and selectivity over N 2 ,a nd a high Li ion conductivity in its pristine state as well as doped state among other anionic covalentorganic frameworks.Ge-COF-1 was synthesized by am icrowave heatingo fg ermaniumd ioxide and 9,1...
