Trapping Cations in Specific Positions in Tuneable “Artificial Cell” Channels: New Nanochemistry Perspectives | Zendy

Müller Achim | Zendy; Das Samar K. | Zendy; Talismanov Sergei | Zendy; Roy Soumyajit | Zendy; Beckmann Eike | Zendy; Bögge Hartmut | Zendy; Schmidtmann Marc | Zendy; Merca Alice | Zendy; Berkle Alois | Zendy; Allouche Lionel | Zendy; Zhou Yunshan | Zendy; Zhang Lijuan | Zendy

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Trapping Cations in Specific Positions in Tuneable “Artificial Cell” Channels: New Nanochemistry Perspectives

Author(s) -

Müller Achim,

Das Samar K.,

Talismanov Sergei,

Roy Soumyajit,

Beckmann Eike,

Bögge Hartmut,

Schmidtmann Marc,

Merca Alice,

Berkle Alois,

Allouche Lionel,

Zhou Yunshan,

Zhang Lijuan

Publication year - 2003

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.200352358

Subject(s) - nanochemistry , trapping , nanotechnology , ion , materials science , ion trapping , chemical physics , chemistry , combinatorial chemistry , chemical engineering , organic chemistry , ion trap , engineering , biology , ecology

A decision‐making capsule! Where cation trafficking comes to a halt is predetermined, with the process corresponding to a “nano‐ion chromatograph” in action: starting from pores the route may end in a finely sculpturable interior of a stable, soluble spherical capsule but in many cases it ends in between in channels that exhibit a variety of cation‐capturing functionalities at different positions (one of the twenty channels is shown with the residing cations).

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