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008181129s2017 ||| | | | eng d
020 ▼a 9780438030824
035 ▼a (MiAaPQ)AAI10634540
035 ▼a (MiAaPQ)umn:18630
040 ▼a MiAaPQ ▼c MiAaPQ ▼d 248032
0491 ▼f DP
0820 ▼a 547
1001 ▼a May, Camille Malonzo.
24510 ▼a Optimization of Porous Metal Oxides and Metal-Organic Frameworks for High Temperature Catalysis.
260 ▼a [S.l.] : ▼b University of Minnesota., ▼c 2017
260 1 ▼a Ann Arbor : ▼b ProQuest Dissertations & Theses, ▼c 2017
300 ▼a 233 p.
500 ▼a Source: Dissertation Abstracts International, Volume: 79-10(E), Section: B.
500 ▼a Adviser: Andreas Stein.
5021 ▼a Thesis (Ph.D.)--University of Minnesota, 2017.
520 ▼a The structural integrity of porous materials is critical to their application as heterogeneous catalysts. For high temperature catalysis, sintering and decomposition are common routes to structural destabilization and ultimately to irreversible
520 ▼a Thermochemical cycles can use the heat generated from solar thermal power to split H2O and CO2 into H2 and CO, both of which are valuable fuel and chemical feedstocks. These cycles can be catalyzed by metal oxides. In the first part of this thes
520 ▼a The other part of this thesis describes the development of a silica nanocasting method for the thermal stabilization of metal-organic framework (MOF)-based catalytic metal sites. Nanocasting incorporates a thermally stable silica layer in the MO
590 ▼a School code: 0130.
650 4 ▼a Organic chemistry.
690 ▼a 0490
71020 ▼a University of Minnesota. ▼b Chemistry.
7730 ▼t Dissertation Abstracts International ▼g 79-10B(E).
773 ▼t Dissertation Abstract International
790 ▼a 0130
791 ▼a Ph.D.
792 ▼a 2017
793 ▼a English
85640 ▼u http://www.riss.kr/pdu/ddodLink.do?id=T14996664 ▼n KERIS
980 ▼a 201812 ▼f 2019
990 ▼a 관리자 ▼b 관리자