Modeling the Remote‐Controlled Organization of Particles in a Nanodimensional Cavity: Synthesis and Properties of (Et 3 NH) 3 ( t BuNH 3 ) 2 ‐Na 2 [(H 2 O) 2 ,N       −    3     ⊂ V 14 O 22 (OH) 4 (PhPO 3 ) 8 ]· 6H 2 O·2DMF | Zendy

Müller Achim | Zendy; Hovemeier Kai | Zendy; Krickemeyer Erich | Zendy; Bögge Hartmut | Zendy

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Modeling the Remote‐Controlled Organization of Particles in a Nanodimensional Cavity: Synthesis and Properties of (Et 3 NH) 3 ( t BuNH 3 ) 2 ‐Na 2 [(H 2 O) 2 ,N − 3 ⊂ V 14 O 22 (OH) 4 (PhPO 3 ) 8 ]· 6H 2 O·2DMF

Author(s) -

Müller Achim,

Hovemeier Kai,

Krickemeyer Erich,

Bögge Hartmut

Publication year - 1995

Publication title -

angewandte chemie international edition in english

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 0570-0833

DOI - 10.1002/anie.199507791

Subject(s) - ion , molecule , chemical physics , nanotechnology , host (biology) , crystallography , physics , chemistry , materials science , organic chemistry , biology , ecology

The arrangement of charged and uncharged guests (N − 3and two H 2 O molecules; see structure on the right) and their interaction in the cavity of the anion of the title compound 1 can be controlled by deliberately exchanging particles in the truncated cone outside the host (not shown), which resembles an ion channel. Since 1 can incorporate a diversity of guests, continuing studies promise exciting insights into these interactions.

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