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Impact of Xylose on Dynamics of Water Diffusion in Mesoporous Zeolites Measured by NMR

Nelson, M.L.; Romo, J.E.; Wettstein, S.G.; Seymour, J.D. (September 2021, Molecules)
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Zeolites are known to be effective catalysts in biomass converting processes. Understanding the mesoporous structure and dynamics within it during such reactions is important in effectively utilizing them. Nuclear magnetic resonance (NMR) T2 relaxation and diffusion measurements, using a high-power radio frequency probe, are shown to characterize the dynamics of water in mesoporous commercially made 5A zeolite beads before and after the introduction of xylose. Xylose is the starting point in the dehydration into furfural. The results indicate xylose slightly enhances rotational mobility while it decreases translational motion through altering the permeability, K, throughout the porous structure. The measurements show xylose inhibits pure water from relocating into larger pores within the zeolite beads where it eventually is expelled from the bead itself.
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The effect of solvent polarity on autocatalytic furfural production confirmed by multivariate statistical analysis

https://doi.org/10.1002/cctc.201900969

Romo, Joelle; Miller, Kyle; Sundsted, Tara; Job, Adam; Hoo, Karlene; Wettstein, Stephanie Grace (July 2019, ChemCatChem)

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SAPO-34/5A Zeolite Bead Catalysts for Furan Production from Xylose and Glucose

https://doi.org/10.1021/acsomega.8b02461

Romo, Joelle E.; Wu, Ting; Huang, Xinlei; Lucero, Jolie; Irwin, Jennifer L.; Bond, Jesse Q.; Carreon, Moises A.; Wettstein, Stephanie G. (November 2018, ACS Omega)
Conversion of Sugars and Biomass to Furans Using Heterogeneous Catalysts in Biphasic Solvent Systems

https://doi.org/10.1002/cctc.201800926

Romo, Joelle E.; Bollar, Nathan V.; Zimmermann, Coy J.; Wettstein, Stephanie G. (November 2018, ChemCatChem)

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Liquid phase conversion of lignocellulosic biomass using biphasic systems

https://doi.org/10.1016/j.biombioe.2018.08.009

Zimmermann, Coy J.; Bollar, Nathan V.; Wettstein, Stephanie G. (November 2018, Biomass and Bioenergy)

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