Rise of graphene in novel piezoresistive sensing applications: A review on recent development and prospect

Remarkable progress in developing graphene-based nanomaterials has provided vital breakthroughs in many fields including energy, environment, and sensor technologies. Thanks to its excellent piezoresistive characteristics to detect mechanical deformations with enhanced signal transfer capabilities,...

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Bibliographic Details
Published inMaterials science & engineering. R, Reports : a review journal Vol. 163; p. 100891
Main Authors Khalid, Muhammad Yasir, Umer, Rehan, Zweiri, Yahya H., Kim, Jang-Kyo
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2025
Subjects
Flexible sensors
Graphene
Human motion monitoring
Piezoresistive sensors
Wearable electronics
EHD
LM
Wearable electronics
PU
SEBS
TMPGPS
PVP
GiP
PEDOT:PSS
Human motion monitoring
0D
MC
AGCF
LBL
CMC
SLS
CFSS
PFS
EMG
CGY FSS
EEG
PCSC
AM
PVDF
CVD
CAN
VG
1D
NC
Graphene
Flexible sensors
GPCS
CNC
Piezoresistive sensors
CNF
MWCNT
SEM
JE
MIPS
RGO
PDMS
BC
NP
NR
CNT
GNP
NW
PANI
GNR
BN
PDA
TENG
PVDF-TrFE-CFE
IoT
2D
ETPU
CSF
GWF
W
TPU
GA
G-PPy-JE
CA
CB
GF
SSA
HMI
MGA
GN
ECG
GO
EVOH
LED
E-skin
G-PU
LIG
GS
3D
PC
PEN
PPy
PI
PVA
CPI
PET
SSPWN
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Summary:Remarkable progress in developing graphene-based nanomaterials has provided vital breakthroughs in many fields including energy, environment, and sensor technologies. Thanks to its excellent piezoresistive characteristics to detect mechanical deformations with enhanced signal transfer capabilities, graphene has found extensive applications as strain and pressure sensors—important components for flexible devices, wearable electronic skin and human-machine interfaces. Given many existing review articles on similar subjects in the literature, this paper is dedicated to reviewing the current state-of-the-art developments and prospects of graphene-based, piezoresistive strain and pressure sensors, focusing mainly on their important performance criteria, fabrication strategies and novel applications. It covers the details of how their key performance can be improved through rational design and facile fabrication approaches specifically for flexible and wearable electronics. The discussion in this review serves as concrete proof of enhanced multifunctionality of graphene piezoresistive sensors in wearable technologies. Current challenges and opportunities for emerging applications of graphene sensors in smart devices are highlighted. [Display omitted]
ISSN:0927-796X
DOI:10.1016/j.mser.2024.100891