Modification of metal organic framework HKUST-1 with CuCl for selective separation of CO/H2 and CO/N2

Yu Yin; Zhi Hao Wen; Xiao Qin Liu; Lei Shi; Ai Hua Yuan

doi:10.1007/s10934-018-0564-9

Modification of metal organic framework HKUST-1 with CuCl for selective separation of CO/H₂ and CO/N₂

Yu Yin, Zhi Hao Wen, Xiao Qin Liu, Lei Shi, Ai Hua Yuan

COLLEGE OF CHEMICAL ENGINEERING

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Separation and recovery of CO from CO, H₂, and N₂ mixtures is quite imperative, due to the huge demands in chemical industry, aims of human health, and regulations of hydrogen fuel cell techniques. Cu(I) π complexation adsorbents show great potentials for CO adsorption. In this work, the typical MOF, HKUST-1 was modified with CuCl by the monolayer dispersion method for preparation of π complexation adsorbents. The resultant adsorbents were well characterized with XRD, and N₂ adsorption−desorption isotherms (− 196 °C). These results suggest that CuCl has been successfully modified on HKUST-1. The CO, H₂, and N₂ adsorption performance of the adsorbents at 25 °C was tested as well. In addition, CO/H₂ and CO/N₂ selectivity was predicted by the ideal adsorbed solution theory (IAST). In general, the adsorbents modified with CuCl show better performance than pristine HKUST-1 on the CO separation from CO, H₂, and N₂ mixtures, including the CO adsorption capacity and the CO/H₂, CO/N₂ selectivity.

Original language	English
Pages (from-to)	1513-1519
Number of pages	7
Journal	Journal of Porous Materials
Volume	25
Issue number	5
DOIs	https://doi.org/10.1007/s10934-018-0564-9
State	Published - 1 Oct 2018

Keywords

CO adsorption
CuCl
HKUST-1
Selectivity
π complexation

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10.1007/s10934-018-0564-9

Cite this

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title = "Modification of metal organic framework HKUST-1 with CuCl for selective separation of CO/H2 and CO/N2 ",

abstract = "Separation and recovery of CO from CO, H2, and N2 mixtures is quite imperative, due to the huge demands in chemical industry, aims of human health, and regulations of hydrogen fuel cell techniques. Cu(I) π complexation adsorbents show great potentials for CO adsorption. In this work, the typical MOF, HKUST-1 was modified with CuCl by the monolayer dispersion method for preparation of π complexation adsorbents. The resultant adsorbents were well characterized with XRD, and N2 adsorption−desorption isotherms (− 196 °C). These results suggest that CuCl has been successfully modified on HKUST-1. The CO, H2, and N2 adsorption performance of the adsorbents at 25 °C was tested as well. In addition, CO/H2 and CO/N2 selectivity was predicted by the ideal adsorbed solution theory (IAST). In general, the adsorbents modified with CuCl show better performance than pristine HKUST-1 on the CO separation from CO, H2, and N2 mixtures, including the CO adsorption capacity and the CO/H2, CO/N2 selectivity.",

keywords = "CO adsorption, CuCl, HKUST-1, Selectivity, π complexation",

author = "Yu Yin and Wen, {Zhi Hao} and Liu, {Xiao Qin} and Lei Shi and Yuan, {Ai Hua}",

note = "Publisher Copyright: {\textcopyright} 2018, Springer Science+Business Media, LLC, part of Springer Nature.",

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AU - Yin, Yu

AU - Wen, Zhi Hao

AU - Liu, Xiao Qin

AU - Shi, Lei

AU - Yuan, Ai Hua

PY - 2018/10/1

Y1 - 2018/10/1

N2 - Separation and recovery of CO from CO, H2, and N2 mixtures is quite imperative, due to the huge demands in chemical industry, aims of human health, and regulations of hydrogen fuel cell techniques. Cu(I) π complexation adsorbents show great potentials for CO adsorption. In this work, the typical MOF, HKUST-1 was modified with CuCl by the monolayer dispersion method for preparation of π complexation adsorbents. The resultant adsorbents were well characterized with XRD, and N2 adsorption−desorption isotherms (− 196 °C). These results suggest that CuCl has been successfully modified on HKUST-1. The CO, H2, and N2 adsorption performance of the adsorbents at 25 °C was tested as well. In addition, CO/H2 and CO/N2 selectivity was predicted by the ideal adsorbed solution theory (IAST). In general, the adsorbents modified with CuCl show better performance than pristine HKUST-1 on the CO separation from CO, H2, and N2 mixtures, including the CO adsorption capacity and the CO/H2, CO/N2 selectivity.

AB - Separation and recovery of CO from CO, H2, and N2 mixtures is quite imperative, due to the huge demands in chemical industry, aims of human health, and regulations of hydrogen fuel cell techniques. Cu(I) π complexation adsorbents show great potentials for CO adsorption. In this work, the typical MOF, HKUST-1 was modified with CuCl by the monolayer dispersion method for preparation of π complexation adsorbents. The resultant adsorbents were well characterized with XRD, and N2 adsorption−desorption isotherms (− 196 °C). These results suggest that CuCl has been successfully modified on HKUST-1. The CO, H2, and N2 adsorption performance of the adsorbents at 25 °C was tested as well. In addition, CO/H2 and CO/N2 selectivity was predicted by the ideal adsorbed solution theory (IAST). In general, the adsorbents modified with CuCl show better performance than pristine HKUST-1 on the CO separation from CO, H2, and N2 mixtures, including the CO adsorption capacity and the CO/H2, CO/N2 selectivity.

KW - CO adsorption

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