Advances in the Engineering of Near Infrared Emitting Liquid Crystals and Copolymers, Extended Porous Frameworks, Theranostic Tools and Molecular Junctions Using Tailored Re6 Cluster Building Blocks
about
Time-gated luminescence bioimaging with new luminescent nanocolloids based on [Mo6I8(C2F5COO)6]2- metal atom clusters.A ligand substituted tungsten iodide cluster: luminescence vs. singlet oxygen production.Tuned red NIR phosphorescence of polyurethane hybrid composites embedding metallic nanoclusters for oxygen sensing.Sensing activity of cholinesterases through a luminescence response of the hexarhenium cluster complex [{Re6S8}(OH)6](4.).Photoluminescent materials based on PMMA and a highly-emissive octahedral molybdenum metal cluster complexSynthesis, structure and luminescence properties of new chalcogenide octahedral rhenium cluster complexes with 4-aminopyridine [{Re6Q8}(4-NH2-py)6]2+Synthesis, crystal structure, and luminescence properties of complexes (4-ViBnNMe3)2[{M6(µ3-I)8}I6] (M = Mo, W; (4-ViBnNMe3)+ is trimethyl(4-vinylbenzyl)ammonium)Molecular Oxygen Modulated Luminescence of anOctahedro-hexamolybdenum Iodide Cluster having Six Apical Thiocyanate LigandsFabrication of Transparent Thin Film of Octahedral Molybdenum Metal Clusters by Electrophoretic DepositionPhosphorescent columnar hybrid materials containing polyionic inorganic nanoclustersFrom Mesomorphic Phosphine Oxide to Clustomesogens Containing Molybdenum and Tungsten Octahedral Cluster CoresDesign and Integration in Electro-Optic Devices of Highly Efficient and Robust Red-NIR Phosphorescent Nematic Hybrid Liquid Crystals Containing [Mo6I8(OCOCnF2n+1)6]2−(n= 1, 2, 3) NanoclustersSupramolecular Frameworks Built up from Red-Phosphorescenttrans-Re6Cluster Building Blocks: One Pot Synthesis, Crystal Structures, and DFT Investigations
P2860
Q50225092-55381D82-8C49-434A-8C52-DD886FFBA05EQ50227646-14D1353D-182F-4334-B523-D6B2F90E5614Q50448107-5B862C9C-622D-4372-A373-84B3528610B7Q53098850-36D524DF-9C69-45B8-A8BF-3A5E1BF98C3DQ57628968-4F361211-31D4-41C3-83D9-C88E2EC0BC5BQ57628971-CD5891D0-4C3A-4DFD-8CC7-589E5B814750Q57628979-6809E81D-D7C3-4C6C-93A0-D11FEE97EBEFQ58053271-97A43BAA-1D9B-4D8B-A8C1-46F0A71F9E87Q58174833-047FAC55-D033-47DA-BC0A-A55FD9173265Q58174854-1CD35407-BBF5-47B9-BC08-337DC7CDD741Q58174897-6AA21C62-B92C-4615-99D4-D964D9621164Q58174904-E2F451ED-7514-4473-B5F1-7B2FCFDEA226Q58174918-ADB285F5-6748-4551-B338-C72159BCB749
P2860
Advances in the Engineering of Near Infrared Emitting Liquid Crystals and Copolymers, Extended Porous Frameworks, Theranostic Tools and Molecular Junctions Using Tailored Re6 Cluster Building Blocks
description
im Mai 2014 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2014
@uk
name
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@en
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@nl
type
label
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@en
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@nl
prefLabel
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@en
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@nl
P2093
P2860
P1476
Advances in the Engineering of ...... ed Re6 Cluster Building Blocks
@en
P2093
Bruno Fabre
Fabien Grasset
Konstantin A. Brylev
Nikolay G. Naumov
Stéphane Cordier
Yann Molard
Yuri V. Mironov
P2860
P2888
P356
10.1007/S10876-014-0734-0
P577
2014-05-28T00:00:00Z