Thesis (Selection of subject)Thesis (Selection of subject)(version: 381)
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Rational synthesis of zeolitic materials and their characterization by advanced electron microscopy methods
Thesis title in Czech: Racionální syntéza zeolitických materiálů a jejich charakterizace pomocí pokročilých metod elektronové mikroskopie
Thesis title in English: Rational synthesis of zeolitic materials and their characterization by advanced electron microscopy methods
Key words: Electron microscopy, zeolites, synthesis, zeolitic materials, porous materials
English key words: Electron microscopy, zeolites, synthesis, zeolitic materials, porous materials
Academic year of topic announcement: 2019/2020
Thesis type: dissertation
Thesis language: angličtina
Department: Department of Physical and Macromolecular Chemistry (31-260)
Supervisor: Michal Mazur, Ph.D.
Author: hidden - assigned and confirmed by the Study Dept.
Date of registration: 14.10.2019
Date of assignment: 15.10.2019
Confirmed by Study dept. on: 15.10.2019
Date of electronic submission:22.03.2024
Date of proceeded defence: 20.05.2024
Opponents: prof. Lucjan Chmielarz
  doc. Ing. Vítězslav Zima, CSc., DSc.
 
 
Advisors: prof. Ing. Jiří Čejka, DrSc.
Preliminary scope of work
Zeolites are among the most useful materials in catalysis, sorption and ion-exchange. It is due to their properties i.e. high adsorption capacity, defined microporosity (resulting in molecular sieving effect), adjustable chemical composition, and possibility for post-synthesis modifications. Conventional synthesis of zeolites is performed by solvothermal methods that are limited in term of control and design of the process. On the other hand, recently developed ADOR synthesis approach (Assembly, Disassembly, Organization, Reassembly) utilizing the 2 dimensional (2D) layered zeolite precursors gives the possibility to design the final product and prepare different type of porous materials by post-synthesis manipulations. The rational design of novel zeolitic materials and their characterization by advanced electron microscopy methods are general aims of proposed PhD thesis. The synthesized materials will be investigated for their potential use e.g. in catalysis, especially for acid-catalysed reactions. The PhD work will include: 1) the application of established synthetic techniques (e.g. solvothermal synthesis, ADOR approach, swelling, pillaring, and functionalization, 2) development of novel synthesis strategies, and 3) characterization of synthesized material by electron microscopy and diffraction methods (including novel techniques like Rotation Electron Diffraction (RED). The PhD work should result in preparation of new zeolitic materials and their better understanding by use of advanced characterization techniques.
Preliminary scope of work in English
Zeolites are among the most useful materials in catalysis, sorption and ion-exchange. It is due to their properties i.e. high adsorption capacity, defined microporosity (resulting in molecular sieving effect), adjustable chemical composition, and possibility for post-synthesis modifications. Conventional synthesis of zeolites is performed by solvothermal methods that are limited in term of control and design of the process. On the other hand, recently developed ADOR synthesis approach (Assembly, Disassembly, Organization, Reassembly) utilizing the 2 dimensional (2D) layered zeolite precursors gives the possibility to design the final product and prepare different type of porous materials by post-synthesis manipulations. The rational design of novel zeolitic materials and their characterization by advanced electron microscopy methods are general aims of proposed PhD thesis. The synthesized materials will be investigated for their potential use e.g. in catalysis, especially for acid-catalysed reactions. The PhD work will include: 1) the application of established synthetic techniques (e.g. solvothermal synthesis, ADOR approach, swelling, pillaring, and functionalization, 2) development of novel synthesis strategies, and 3) characterization of synthesized material by electron microscopy and diffraction methods (including novel techniques like Rotation Electron Diffraction (RED). The PhD work should result in preparation of new zeolitic materials and their better understanding by use of advanced characterization techniques.
 
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