Sophisticated Crystal Transformation of a Coordination Polymer into Mesoporous Monocrystalline Ti–Fe‐Based Oxide with Room‐Temperature Ferromagnetic Behavior | Zendy

Hu Ming | Zendy; Belik Alexei A. | Zendy; Sukegawa Hiroaki | Zendy; Nemoto Yoshihiro | Zendy; Imura Masataka | Zendy; Yamauchi  Yusuke | Zendy

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Sophisticated Crystal Transformation of a Coordination Polymer into Mesoporous Monocrystalline Ti–Fe‐Based Oxide with Room‐Temperature Ferromagnetic Behavior

Author(s) -

Hu Ming,

Belik Alexei A.,

Sukegawa Hiroaki,

Nemoto Yoshihiro,

Imura Masataka,

Yamauchi Yusuke

Publication year - 2011

Publication title -

chemistry – an asian journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.18

H-Index - 106

eISSN - 1861-471X

pISSN - 1861-4728

DOI - 10.1002/asia.201100509

Subject(s) - monocrystalline silicon , materials science , ferromagnetism , oxide , mesoporous material , transformation (genetics) , coordination polymer , crystal structure , crystal (programming language) , polymer , chemical engineering , crystallography , condensed matter physics , metallurgy , chemistry , silicon , computer science , composite material , physics , organic chemistry , catalysis , engineering , biochemistry , programming language , gene

Have you been framed? Mesoporous monocrystalline K 0.8 Ti 4.3 Fe 3.7 O 16 cubes have been prepared by a sophisticated crystal transformation from a single‐crystalline titanium‐containing Prussian Blue analogue. This is a new strategy for the design of fully crystallized frameworks in mesoporous materials (see graphic).

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