Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore

Altman EI, Dementyev P (2023)
Catalysis Letters .

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch
 
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Autor*in
Altman, Eric I.; Dementyev, PetrUniBi
Abstract / Bemerkung
The explosion of interest in two-dimensional (2D) materials has spurred advances in catalysis in the confined space between a 2D van der Waals layer and a catalytic surface, as well as ultimate permeation through single atomic layers. An intriguing material in this regard is a 2D silica polymorph discovered about 10 years ago. The structure intrinsically includes small molecule-sized pores; thus, defects are not required to permeate the layer and access the catalytic surface. Surface science studies have shown the potential for 2D silica to act as a size-selective membrane and to alter catalytic rates, mechanisms and selectivity. The advent of an atomic layer deposition (ALD) process for 2D silica that does not require ultra-high vacuum or single crystal substrates promises advances in exploring and applying perm-selective 2D silica layers to challenging problems in catalysis. Recent work using ALD-grown 2D silica as single layer membranes revealed that permeation through the layer proceeds through an adsorption-diffusion-permeation mechanism rather than ballistic transport leading to counterintuitive permeation trends. Nonetheless, comparison of straight and branched alcohols revealed preferential permeation of the straight-chain alcohols, demonstrating shape-selectivity. Results for initial catalytic studies under 2D silica confinement are analyzed and the prospects for the future discussed.
Stichworte
Atomic layer deposition; 2D material; Silica; Catalysis under; confinement; Membrane
Erscheinungsjahr
2023
Zeitschriftentitel
Catalysis Letters
ISSN
1011-372X
eISSN
1572-879X
Page URI
https://pub.uni-bielefeld.de/record/2982781

Zitieren

Altman EI, Dementyev P. Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore. Catalysis Letters . 2023.
Altman, E. I., & Dementyev, P. (2023). Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore. Catalysis Letters . https://doi.org/10.1007/s10562-023-04435-7
Altman, Eric I., and Dementyev, Petr. 2023. “Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore”. Catalysis Letters .
Altman, E. I., and Dementyev, P. (2023). Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore. Catalysis Letters .
Altman, E.I., & Dementyev, P., 2023. Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore. Catalysis Letters .
E.I. Altman and P. Dementyev, “Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore”, Catalysis Letters , 2023.
Altman, E.I., Dementyev, P.: Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore. Catalysis Letters . (2023).
Altman, Eric I., and Dementyev, Petr. “Atomic Layer Deposition Brings Applications of Two-Dimensional Silica to the Fore”. Catalysis Letters (2023).
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