Characterization of Micro/Mesoporous Materials by Physisorption: Concepts and Case Studies
Sotomayor F, Cychosz KA, Thommes M (2018)
Publication Type: Journal article
Publication year: 2018
Journal
Abstract
Utilizing
case studies of selected materials, including hierarchical zeolites,
controlled pore glasses, and mesoporous carbons, we demonstrate that
physisorption analysis is a valuable tool in the structural
characterization of a broad range of nanoporous materials. In
conjunction with the selected case studies, we illustrate how
application of advanced methodologies allows for the determination of
surface areas, pore volumes, and pore size distributions over the
complete range of micro-, meso-, and even narrow macropores. We discuss
important aspects of state-of-the-art gas adsorption methodologies, in
line with recent recommendations by the IUPAC. Rather than serving as a
broad review of gas adsorption literature, this paper highlights basic
concepts and resources for understanding gas adsorption characterization
in a modern context and offers practical guidance for users of gas
adsorption instruments, especially those in industrial settings.
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How to cite
APA:
Sotomayor, F., Cychosz, K.A., & Thommes, M. (2018). Characterization of Micro/Mesoporous Materials by Physisorption: Concepts and Case Studies. Accounts of Materials & Surface Research.
MLA:
Sotomayor, Francisco, Katie A. Cychosz, and Matthias Thommes. "Characterization of Micro/Mesoporous Materials by Physisorption: Concepts and Case Studies." Accounts of Materials & Surface Research (2018).
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