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Anal Chem


Title:Pore-Size-Tuned Graphene Oxide Membrane as a Selective Molecular Sieving Layer: Toward Ultraselective Chemiresistors
Author(s):Jang JS; Lee J; Koo WT; Kim DH; Cho HJ; Shin H; Kim ID;
Address:"Department of Materials Science and Engineering , Korea Advanced Institute of Science and Technology , 291 Daehak-ro , Yuseong-gu, Daejeon 305-701 , Republic of Korea. Advanced Nanosensor Research Center, KI Nanocentury , KAIST , 291 Daehak-ro , Yuseong-gu, Daejeon 34141 , Republic of Korea"
Journal Title:Anal Chem
Year:2020
Volume:20191226
Issue:1
Page Number:957 - 965
DOI: 10.1021/acs.analchem.9b03869
ISSN/ISBN:1520-6882 (Electronic) 0003-2700 (Linking)
Abstract:"Conventional graphene oxide (GO)-based gas membranes, having a narrow pore-size range of less than 0.3 nm, exhibit limited gas molecular permeability because of the kinetic diameters of most volatile organic and sulfur compound (VOCs/VSCs) molecules being larger than 0.3 nm. Here, we employ GO nanosheets (NSs) with a tunable pore-size distribution as a molecular sieving layer on two-dimensional (2D) metal oxide NSs-based gas sensors, i.e., PdO-sensitized WO(3) NSs to boost selectivity toward specific gas species. The pore size, surface area, and pore density of GO NSs were simply manipulated by controlling H(2)O(2) concentration. In addition, the pore size-tuned GO NSs were coated on cellulose filtering paper as a free-standing nanoporous membrane. Holey GO membrane showed a highly selective H(2)S permeability characteristic, exhibiting superior cross-selectivity to CH(3)COCH(3) (0.46 nm), C(2)H(5)OH (0.45 nm), and C(7)H(8) (0.59 nm) with larger kinetic diameters compared with H(2)S (0.36 nm). Such pore-size-tuned GO nanoporous layer is scalable and robust, highlighting a great promise for designing low cost and highly efficient gas-permeable membrane for outstanding selective gas sensing platform"
Keywords:
Notes:"PubMed-not-MEDLINEJang, Ji-Soo Lee, Jiyoung Koo, Won-Tae Kim, Dong-Ha Cho, Hee-Jin Shin, Hamin Kim, Il-Doo eng Research Support, Non-U.S. Gov't 2019/12/12 Anal Chem. 2020 Jan 7; 92(1):957-965. doi: 10.1021/acs.analchem.9b03869. Epub 2019 Dec 26"

 
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