Cu(I) hybrid inorganic–organic materials with intriguing stimuli responsive and optoelectronic properties

Cu(I) hybrid inorganic–organic materials with intriguing stimuli responsive and optoelectronic properties

•Cu(I) materials with luminescence thermochromism, vapochromism, mechanochromism or multistimuli responsive properties.•Cu(I) complexes for OLED devices fabricated by evaporation techniques or by solution methods.•HLS, Kurtz–Perry, thin film poling and single crystal SHG measurements of the second o...

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Bibliographic Details
Published in:Coordination chemistry reviews Vol. 306; pp. 566 - 614
Main Authors: Cariati, Elena, Lucenti, Elena, Botta, Chiara, Giovanella, Umberto, Marinotto, Daniele, Righetto, Stefania
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2016
Subjects:
Light-emitting electrochemical cells (LECs)
Non linear optics (NLO)
Organic light-emitting diodes (OLEDs)
Piezoluminescence
Thermoluminescence
Vapoluminescence
PLQY
DF
TADF
DFT
SHG
Tg
MC
EQE
OLED
TDDFT
CIE
PXRD
EL
Organic light-emitting diodes (OLEDs)
VOC
λEL
ET
VON
MMCT
CRI
Thermoluminescence
HTL
Vapoluminescence
HOMO
LUMO
L
EBL
HLS
Light-emitting electrochemical cells (LECs)
NLO
Piezoluminescence
Non linear optics (NLO)
CC
RISC
CE
MOF
LEC
CT
LMT
NMR
ΔEST
MLCT
PE
ILCT
LE
r.t
ETL
PL
HE
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Description
Summary:•Cu(I) materials with luminescence thermochromism, vapochromism, mechanochromism or multistimuli responsive properties.•Cu(I) complexes for OLED devices fabricated by evaporation techniques or by solution methods.•HLS, Kurtz–Perry, thin film poling and single crystal SHG measurements of the second order NLO properties of Cu(I) complexes. The continuous search for hybrid inorganic–organic compounds to be used in a variety of applications points obviously to the abundant, cheap, and environmental friendly copper. Cu(I) complexes exhibit a high structural diversity and are emissive with several classes of ligands with properties varying markedly with structure and environment. Solid state materials that display reversible stimuli-responsive emission are attracting considerable attention because of their basic science interest and potential applications in sensors, displays, and memory fields. While the photochemical and photophysical properties of Cu(I) complexes and clusters have been extensively studied, their optoelectronic characterization in view of second order non linear optical and electroluminescent applications has been performed more recently. However, the excellent results so far obtained in studies concerning OLED devices based on some highly stable Cu(I) complexes have proved the great potentiality of these materials in low cost flat panel displays and solid state lighting technologies. This review gathers the literature concerning stimuli responsive, electroluminescent and second order non linear optical studies on Cu(I) compounds published up to late 2014.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2015.03.004