Abstract
Amine-functionalized adsorbents have attracted much attention in removing indoor CO to reduce the risk of human health. In the current work, polyethyleneimine (PEI)-modified silica monolith (PEI-silica) was synthesized through a sol-gel method using PEI with molecular weights of 750,000, 25,000, and 10,000 as template agents. The N adsorption result revealed that the PEI-silica monolith possesses a mesoporous structure with 25-45 nm pore size assembled by silica particles (60-80 nm), which was decreased with the decrease in PEI molecular weight. The adsorption capacities of PEI-silica for reducing CO concentration below 0.1% from 0.5% were investigated. The results indicated that CO adsorption capacity of PEI-silica increased as molecular weight of PEI decreased. PEI-silica achieved CO adsorption capacities of 58.5 and 100.4 mg g under dry and humid conditions and showed cyclic stability during a 10 times adsorption-desorption process. Therefore, PEI-silica monolith provides a promising strategy for controlling indoor CO.
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