Theory of Lewis acid zeolite catalysis for the conversion of biomass-derived furanics : on the effect of multi-site cooperativity and confinement

R. Rohling

Theory of Lewis acid zeolite catalysis for the conversion of biomass-derived furanics : on the effect of multi-site cooperativity and confinement

R. Rohling

Inorganic Materials & Catalysis

Research output: Thesis › Phd Thesis 1 (Research TU/e / Graduation TU/e)

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Abstract

Optimizing nanoreactors for sustainable feedstock for next-generation plastics

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Chemical Engineering and Chemistry
Supervisors/Advisors	Hensen, Emiel J.M., Promotor Pidko, E.A., Copromotor
Award date	23 Jan 2019
Place of Publication	Eindhoven
Publisher	Technische Universiteit Eindhoven
Print ISBNs	978-90-386-4680-0
Publication status	Published - 23 Jan 2019

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Proefschrift

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20190123_RohlingFinal published version, 17.8 MB

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title = "Theory of Lewis acid zeolite catalysis for the conversion of biomass-derived furanics : on the effect of multi-site cooperativity and confinement",

abstract = "Optimizing nanoreactors for sustainable feedstock for next-generation plastics",

author = "R. Rohling",

note = "Proefschrift",

year = "2019",

month = jan,

day = "23",

language = "English",

isbn = "978-90-386-4680-0",

publisher = "Technische Universiteit Eindhoven",

type = "Phd Thesis 1 (Research TU/e / Graduation TU/e)",

school = "Chemical Engineering and Chemistry",

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TY - THES

T1 - Theory of Lewis acid zeolite catalysis for the conversion of biomass-derived furanics : on the effect of multi-site cooperativity and confinement

AU - Rohling, R.

N1 - Proefschrift

PY - 2019/1/23

Y1 - 2019/1/23

N2 - Optimizing nanoreactors for sustainable feedstock for next-generation plastics

AB - Optimizing nanoreactors for sustainable feedstock for next-generation plastics

M3 - Phd Thesis 1 (Research TU/e / Graduation TU/e)

SN - 978-90-386-4680-0

PB - Technische Universiteit Eindhoven

CY - Eindhoven

ER -

Theory of Lewis acid zeolite catalysis for the conversion of biomass-derived furanics : on the effect of multi-site cooperativity and confinement

Abstract

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