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W2016063528 endingPage "747" @default.
W2016063528 startingPage "742" @default.
W2016063528 abstract "In the course of the last decade, many dynamic molecular systems, for which the movements are controlled from the outside, have been elaborated. These compounds are generally referred to as “molecular machines.” Our group has made and studied catenanes and rotaxanes since the early 80s. An important class of molecular machines is based on these interlocking or threaded ring compounds. Although a “molecular muscle” is briefly discussed in the present review article, we mostly focus on light-driven machines, consisting of ruthenium(II)-complexed rotaxanes or catenanes. The synthetic approach is based on the template effect of an octahedral ruthenium(II) centres. Two 1,10-phenanthroline ligands are incorporated in an axis or in a ring, affording the precursor to the rotaxane or the catenane, respectively. Ru(diimine)32+ complexes display the universally used 3MLCT (metal-to-ligand charge transfer) excited state and, another interesting excited state, the 3LF (ligand field) state, which is strongly dissociative. In the past, the 3LF state has mostly been considered as detrimental and thus, its reactivity has not been frequently utilised. By taking advantage of this latter state, it has been possible to propose a new family of molecular machines, which are set in motion by populating the dissociative 3LF state, thus leading to ligand exchange in the coordination sphere of the ruthenium(II) centre." @default.
W2016063528 created "2016-06-24" @default.
W2016063528 creator A5020387146 @default.
W2016063528 creator A5087099266 @default.
W2016063528 date "2005-06-01" @default.
W2016063528 modified "2023-10-10" @default.
W2016063528 title "Transition Metal-complexed Catenanes and Rotaxanes as Light-driven Molecular Machines Prototypes" @default.
W2016063528 cites W1559264985 @default.
W2016063528 cites W1658488588 @default.
W2016063528 cites W1925105860 @default.
W2016063528 cites W1973518724 @default.
W2016063528 cites W1975259432 @default.
W2016063528 cites W1986510139 @default.
W2016063528 cites W1987458497 @default.
W2016063528 cites W1991333852 @default.
W2016063528 cites W1995400837 @default.
W2016063528 cites W1996946088 @default.
W2016063528 cites W1998369834 @default.
W2016063528 cites W2000037498 @default.
W2016063528 cites W2000518856 @default.
W2016063528 cites W2004268218 @default.
W2016063528 cites W2004677759 @default.
W2016063528 cites W2008808930 @default.
W2016063528 cites W2012214697 @default.
W2016063528 cites W2016222703 @default.
W2016063528 cites W2016354043 @default.
W2016063528 cites W2020284322 @default.
W2016063528 cites W2020589857 @default.
W2016063528 cites W2021302608 @default.
W2016063528 cites W2024021131 @default.
W2016063528 cites W2028921385 @default.
W2016063528 cites W2029904934 @default.
W2016063528 cites W2030687173 @default.
W2016063528 cites W2032297184 @default.
W2016063528 cites W2036753372 @default.
W2016063528 cites W2040983513 @default.
W2016063528 cites W2041560104 @default.
W2016063528 cites W2041584137 @default.
W2016063528 cites W2046416676 @default.
W2016063528 cites W2046643789 @default.
W2016063528 cites W2047866700 @default.
W2016063528 cites W2048345794 @default.
W2016063528 cites W2053715080 @default.
W2016063528 cites W2055199393 @default.
W2016063528 cites W2059834700 @default.
W2016063528 cites W2061178214 @default.
W2016063528 cites W2064828672 @default.
W2016063528 cites W2068035440 @default.
W2016063528 cites W2079399405 @default.
W2016063528 cites W2079753150 @default.
W2016063528 cites W2080501396 @default.
W2016063528 cites W2080833829 @default.
W2016063528 cites W2082908858 @default.
W2016063528 cites W2083838473 @default.
W2016063528 cites W2088880413 @default.
W2016063528 cites W2090130648 @default.
W2016063528 cites W2093858809 @default.
W2016063528 cites W2094032828 @default.
W2016063528 cites W2094451345 @default.
W2016063528 cites W2099067751 @default.
W2016063528 cites W2104395465 @default.
W2016063528 cites W2106599153 @default.
W2016063528 cites W2112228116 @default.
W2016063528 cites W2117041482 @default.
W2016063528 cites W2122220082 @default.
W2016063528 cites W2127821645 @default.
W2016063528 cites W2128492772 @default.
W2016063528 cites W2135340906 @default.
W2016063528 cites W2138264062 @default.
W2016063528 cites W2144087168 @default.
W2016063528 cites W2146301656 @default.
W2016063528 cites W2170067914 @default.
W2016063528 cites W2782084996 @default.
W2016063528 cites W2949139591 @default.
W2016063528 cites W2950533837 @default.
W2016063528 cites W2951794441 @default.
W2016063528 cites W2952278656 @default.
W2016063528 cites W3190518013 @default.
W2016063528 cites W4231502056 @default.
W2016063528 doi "https://doi.org/10.1246/cl.2005.742" @default.
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