Stimuli-responsive switchable organic-inorganic nanocomposite materials

Stimuli-responsive switchable organic-inorganic nanocomposite materials

[Display omitted] •Stimuli-responsive organic-inorganic nanocomposites can be developed by optimizing their structure and composition.•Various stimuli are applied to maximize the difference between ON and OFF states and control response time.•Multi-stimuli can be applied to switch sequentially or in...

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Bibliographic Details
Published in:Nano today Vol. 23; pp. 97 - 123
Main Authors: Lee, Wonsik, Kim, Dongjun, Lee, Seokhee, Park, Jihyeon, Oh, Seoyeah, Kim, Geonho, Lim, Joonyoung, Kim, Jiwon
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2018
Subjects:
Organic-inorganic nanocomposite
Stimuli-responsive
Switchable
Vis
PS
PU
P3HT
PVP
HT
MPU
0D
S-TiO2
AIE
1DPCs
AC
PbS-TBAI
P(NIPAM-co-AM)
P(NIPAM-co-DMAEMA)
Stimuli-responsive
DOX
IU
MAA
Fc-β-CD-I
BCP
AAO
RC
1D
P(NIPAM-co-MAPTMS)
TA@CNCs
PMEO2MA
MAM
PSEMA
mPEG-PPSu-mPEG
LCST
RT
PDMAEMA
CNT
DMAA
PANI
2D
P(NIPAM-co-DMAEMA-co-AFA)
SP
CB
PNIPAM
CD
Organic-inorganic nanocomposite
PTU/T-ZnO
P7AC-b-PNIPAM
3D
PAA
MCH
PMMA
YSNP
LB
PPy
ITO
HPU-AH-rGO
Switchable
N-TiO2
Au-DT NP
P(NIPAM-co-ETMA)
PEDOT:PSS
SPR
MB
PBI
MUA
AMF
P(NIPAM-co-MPCD)
UV
EG
8-HQ
P(DMMA-co-AA)
MEA
Redox
MV
P(NIPAM-co-BVIM)
Rh-B
ES
LCE
FGS
PCE
MMT
P(NIPAM-co-HMAM)
PDMS
NP
NR
NS
HOMO
POEGMA
NW
PDLLA
MSNP
PDA
MNP
Azo-IL
NDEAM
PAN-nanogel-PAS
rGO
SCLC
MOF
α, B-CD
GO
LSPR
PDEAEMA
PB
PBDB-T
PEG
PD
NIR
P(HEMA-co-GMA)
P(NDI2OD-T2)
CCS SNs
PES
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Description
Summary:[Display omitted] •Stimuli-responsive organic-inorganic nanocomposites can be developed by optimizing their structure and composition.•Various stimuli are applied to maximize the difference between ON and OFF states and control response time.•Multi-stimuli can be applied to switch sequentially or independently.•Stimuli-responsive organic-inorganic nanocomposites can be applied in various switching devices. Organic-inorganic nanocomposite materials have attracted a great attention since they cover a wide range of properties by combining the contrasting properties and/or creating novel properties. Functional properties of composites could further be manipulated by stimuli such as light, pH, magnetic/electric field, mechanical force, and heat. When the stimuli can control a wide range of materials’ property, it can be applied to a device with an ON-OFF system: a switch. A switchable material should exhibit the property that is noticeably different upon stimulation (i.e. ON and OFF states) with reversible mechanism. Research on switchable materials has been actively carried out to maximize the difference between ON and OFF states by modifying the structure and composition of nanocomposites, and also on stimuli to control the response time. Switchable materials find their applications in various fields such as catalysts, sensors, photodetectors, memory devices, and drug delivery systems. In this review, we discuss the recent advances in the design/synthesis of organic-inorganic nanoscale materials in which their properties can be controlled in response to a specific stimulus. In addition, we introduce various stimuli (furthermore, multi-stimuli), applications of switchable nanocomposites in a wide range of fields, and also challenges with an outlook.
ISSN:1748-0132
1878-044X
DOI:10.1016/j.nantod.2018.10.006