Peng Cheng and Bruce J. Tatarchuk, Kinetic study of SO2 adsorption on microfibrous entrapped sorbents for solid oxide fuel cell cathode protection, Chemical Engineering Science, Volume 201, 2019, Pages 157-166, ISSN 0009-2509

​

Yang H Y, et al. A study of kinetic effects due to using microfibrous entrapped zinc oxide sorbents for hydrogen sulfide removal. Chemical Engineering Science 63 (2008) 2707.

​

Kalluri R R, et al. Microfibrous entrapped small particle adsorbents for high efficiency heterogeneous contacting. Separation and Purification Technology 62 (2008) 304.

​

Chang B-K, et al. Microfibrous entrapment of small catalyst or sorbent particulates for high contacting-efficiency removal of trace contaminants including CO and H2S from practical reformates for PEM H2-O2 fuel cells. Chemical Engineering Journal 115 (2006) 195.

​

Lu Y, et al. Microfibrous entrapped ZnO-support sorbents for high contacting efficiency H2S removal from reformate streams in PEMFC applications. Microreactor Technology and Process Intensification 914 (2005) 406.

​

Yang, Hongyun; Cahela, Donald R.; Tatarchuk, Bruce J. A study of kinetic effects due to using microfibrous entrapped zinc oxide sorbents for hydrogen sulfide removal. Chemical Engineering Science (2008), 63(10), 2707-2716.

​

H. Yang, D. R. Cahela, and B. J. Tatarchuk, "A Study of Kinetic Effects Due to Using Microfibrous Entrapped Zinc Oxide Sorbents for Hydrogen Sulfide Removal from Model Reformates," Chemical Engineering Science, (2007), 63(10), 2707-2716.