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Linking rings through diamines and clusters: Exploring synthetic methods for making magnetic quantum gates
DOI:
10.1002/anie.200502505
PMID:
16158454
Authors:
Marco
Affronte
(I.N.F.M.-S3 National Research Center)
,
Ian
Casson
(The University of Manchester)
,
Marco
Evangelisti
(I.N.F.M.-S3 National Research Center)
,
Andrea
Candini
(I.N.F.M.-S3 National Research Center)
,
Stefano
Carretta
(Università di Parma)
,
Christopher A.
Muryn
(University of Manchester)
,
Simon J.
Teat
(Diamond Light Source)
,
Grigore
Timco
(The University of Manchester)
,
Wolfgang
Wernsdorfer
(Laboratoire Louis Néel—CNRS)
,
Richard E. P.
Winpenny
(University of Manchester)
Co-authored by industrial partner:
No
Type:
Journal Paper
Journal:
Angewandte Chemie International Edition
, VOL 44 (40)
, PAGES 6496-6500
State:
Published (Approved)
Published:
October 2005
Abstract: Gates leading from cages: Linked paramagnetic cage complexes could potentially be used as quantum gates for quantum information processing. Experiments demonstrate that it is possible to link octanuclear {Cr7Ni} rings through both organic and metalׯrganic fragments into supramolecular dimers (see structure; Cr green, Ni light green, Cu orange, F yellow, O red, N blue, C black).
Journal Keywords: Cage Compounds; Chromium; Heterometallic Complexes; Quantum Computing; Supramolecular Chemistry
Subject Areas:
Chemistry
Technical Areas:
Added On:
10/11/2010 08:51
Discipline Tags:
Molecular Complexes
Chemistry
Organometallic Chemistry
Technical Tags: