Mokhtari F, Cheng Z, Raad R, Xi J, Foroughi J. Piezofibers to smart textiles: a review on recent advances and future outlook for wearable technology. J Mater Chem A. 2021;8:9496–522.
Article
Google Scholar
Kim H, Pyun K, Lee M-T, Lee HB, Ko SH. Recent advances in sustainable wearable energy devices with nanoscale materials and macroscale structures. Adv Funct Mater. 2022;32:2110535.
Article
CAS
Google Scholar
Katrin A, Thomas L. Brain research challenges supercomputing. Science. 2021;374(6571):1054–5.
Article
Google Scholar
Wang J, Dong J. Optical waveguides and integrated optical devices for medical diagnosis, health monitoring and light therapies. Sensors. 2020;20(14):3981.
Article
CAS
PubMed
PubMed Central
Google Scholar
Kim J, Campbell AS, de Avila BE, Wang J. Wearable biosensors for healthcare monitoring. Nat Biotechnol. 2019;37(4):389–406.
Article
CAS
PubMed
PubMed Central
Google Scholar
Zhang Y, Xu Z, Yuan Y, Liu C, Zhang M, Zhang L, Wan P. Flexible antiswelling photothermal-therapy MXene hydrogel-based epidermal sensor for intelligent human-machine interfacing. Adv Funct Mater. 2023;33:2300299.
Article
CAS
Google Scholar
Xia S, Wang M, Gao G. Preparation and application of graphene-based wearable sensors. Nano Res. 2022;15(11):9850–65.
Article
Google Scholar
Yin R, Wang D, Zhao S, Lou Z, Shen G. Wearable sensors-enabled human-machine interaction systems: from design to application. Adv Funct Mater. 2020;31(11):2008936.
Article
Google Scholar
Aragay G, Pino F, Merkoci A. Nanomaterials for sensing and destroying pesticides. Chem Rev. 2012;112(10):5317–38.
Article
CAS
PubMed
Google Scholar
Tiwari JN, Tiwari RN, Kim KS. Zero-dimensional, one-dimensional, two-dimensional and three-dimensional nanostructured materials for advanced electrochemical energy devices. Prog Mater Sci. 2012;57(4):724–803.
Article
CAS
Google Scholar
Kaul AB. Two-dimensional layered materials: structure, properties, and prospects for device applications. J Mater Res. 2014;29(3):348–61.
Article
CAS
Google Scholar
Chimene D, Alge DL, Gaharwar AK. Two-dimensional nanomaterials for biomedical applications: emerging trends and future prospects. Adv Mater. 2015;27(45):7261–84.
Article
CAS
PubMed
Google Scholar
Osada M, Sasaki T. Two-dimensional dielectric nanosheets: novel nanoelectronics from nanocrystal building blocks. Adv Mater. 2012;24(2):210–28.
Article
CAS
PubMed
Google Scholar
Kannan PK, Late DJ, Morgan H, Rout CS. Recent developments in 2D layered inorganic nanomaterials for sensing. Nanoscale. 2015;7(32):13293–312.
Article
CAS
PubMed
Google Scholar
Orts V, Chan KC, Caironi M, Athanassiou A, Kinloch IA, Bissett M, Cataldi P. Electrically conductive 2D material coatings for flexible and stretchable electronics: a comparative review of graphenes and MXenes. Adv Funct Mater. 2022;32:2204772.
Article
Google Scholar
Ismail SNA, Nayan NA, Mohammad Haniff MAS, Jaafar R, May Z. Wearable two-dimensional nanomaterial-based flexible sensors for blood pressure monitoring: a review. Nanomaterials. 2023;13(5):852.
Article
CAS
PubMed
PubMed Central
Google Scholar
Novoselov KS, Geim AK, Morozov SV, Jiang D, Zhang Y, Dubonos SV, Grigorieva IV, Firsov AA. Electric field effect in atomically thin carbon films. Science. 2004;306(5696):666–9.
Article
CAS
PubMed
Google Scholar
Glavin NR, Rao R, Varshney V, Bianco E, Apte A, Roy A, Ringe E, Ajayan PM. Emerging applications of elemental 2D materials. Adv Mater. 2020;32(7):e1904302.
Article
PubMed
Google Scholar
Liu Y, Huang Y, Duan X. Van der Waals integration before and beyond two-dimensional materials. Nature. 2019;567(7748):323–33.
Article
CAS
PubMed
Google Scholar
Sempionatto JR, Lasalde-Ramírez JA, Mahato K, Wang J, Gao W. Wearable chemical sensors for biomarker discovery in the omics era. Nat Rev Chem. 2022;6(12):899–915.
Article
PubMed
PubMed Central
Google Scholar
Xu W, Hu S, Zhao Y, Zhai W, Chen Y, Zheng G, Dai K, Liu C, Shen C. Nacre-inspired tunable strain sensor with synergistic interfacial interaction for sign language interpretation. Nano Energy. 2021;90:106606.
Article
CAS
Google Scholar
Farjadian F, Abbaspour S, Sadatlu MAA, Mirkiani S, Ghasemi A, Hoseini-Ghahfarokhi M, Mozaffari N, Karimi M, Hamblin MR. Recent developments in graphene and graphene oxide: properties, synthesis, and modifications: a review. ChemistrySelect. 2020;5(33):10200–19.
Article
CAS
Google Scholar
Zhou Y, Dai D, Gao Y, Zhang Z, Sun N, Tan H, Cai X, Cai J. Recent advances in graphene electronic skin and its future prospects. ChemNanoMat. 2021;7(9):982–97.
Article
CAS
Google Scholar
Wan S, Bi H, Zhou Y, Xie X, Su S, Yin K, Sun L. Graphene oxide as high-performance dielectric materials for capacitive pressure sensors. Carbon. 2017;114:209–16.
Article
CAS
Google Scholar
Pang Y, Jian J, Tu T, Yang Z, Ling J, Li Y, Wang X, Qiao Y, Tian H, Yang Y, Ren TL. Wearable humidity sensor based on porous graphene network for respiration monitoring. Biosens Bioelectron. 2018;116:123–9.
Article
CAS
PubMed
Google Scholar
Wei Y, Li X, Wang Y, Hirtz T, Guo Z, Qiao Y, Cui T, Tian H, Yang Y, Ren TL. Graphene-based multifunctional textile for sensing and actuating. ACS Nano. 2021;15(11):17738–47.
Article
CAS
PubMed
Google Scholar
Huang T, He P, Wang R, Yang S, Sun J, Xie X, Ding G. Porous fibers composed of polymer nanoball decorated graphene for wearable and highly sensitive strain sensors. Adv Funct Mater. 2019;29(45):1903732.
Article
CAS
Google Scholar
Chen X, Park YJ, Kang M, Kang SK, Koo J, Shinde SM, Shin J, Jeon S, Park G, Yan Y, MacEwan MR, Ray WZ, Lee KM, Rogers JA, Ahn JH. CVD-grown monolayer MoS2 in bioabsorbable electronics and biosensors. Nat Commun. 2018;9(1):1690.
Article
PubMed
PubMed Central
Google Scholar
Lee I, Kang WT, Shin YS, Kim YR, Won UY, Kim K, Duong DL, Lee K, Heo J, Lee YH, Yu WJ. Ultrahigh gauge factor in graphene/MoS(2) heterojunction field effect transistor with variable schottky barrier. ACS Nano. 2019;13(7):8392–400.
Article
CAS
PubMed
Google Scholar
Wang H, Yuan H, Sae Hong S, Li Y, Cui Y. Physical and chemical tuning of two-dimensional transition metal dichalcogenides. Chem Soc Rev. 2015;44(9):2664–80.
Article
CAS
PubMed
Google Scholar
Chowdhury T, Sadler EC, Kempa TJ. Progress and prospects in transition-metal dichalcogenide research beyond 2D. Chem Rev. 2020;120(22):12563–91.
Article
CAS
PubMed
Google Scholar
Chhowalla M, Shin HS, Eda G, Li LJ, Loh KP, Zhang H. The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets. Nat Chem. 2013;5(4):263–75.
Article
PubMed
Google Scholar
Tajik S, Dourandish Z, Garkani Nejad F, Beitollahi H, Jahani PM, Di Bartolomeo A. Transition metal dichalcogenides: synthesis and use in the development of electrochemical sensors and biosensors. Biosens Bioelectron. 2022;216:114674.
Article
CAS
PubMed
Google Scholar
Park YJ, Sharma BK, Shinde SM, Kim MS, Jang B, Kim JH, Ahn JH. All MoS(2)-based large area, skin-attachable active-matrix tactile sensor. ACS Nano. 2019;13(3):3023–30.
Article
CAS
PubMed
Google Scholar
Park S, Lee A, Choi KH, Hyeong SK, Bae S, Hong JM, Kim TW, Hong BH, Lee SK. Layer-selective synthesis of MoS(2) and WS(2) structures under ambient conditions for customized electronics. ACS Nano. 2020;14(7):8485–94.
Article
CAS
PubMed
Google Scholar
Murali G, Reddy Modigunta JK, Park YH, Lee JH, Rawal J, Lee SY, In I, Park SJ. A review on MXene synthesis, stability, and photocatalytic applications. ACS Nano. 2022;16(9):13370–429.
Article
CAS
PubMed
Google Scholar
Liu J, Zhang HB, Sun R, Liu Y, Liu Z, Zhou A, Yu ZZ. Hydrophobic, flexible, and lightweight MXene foams for high-performance electromagnetic-interference shielding. Adv Mater. 2017. https://doi.org/10.1002/adma.201702367.
Article
PubMed
PubMed Central
Google Scholar
Zhao Z, Xia K, Hou Y, Zhang Q, Ye Z, Lu J. Designing flexible, smart and self-sustainable supercapacitors for portable/wearable electronics: from conductive polymers. Chem Soc Rev. 2021;50(22):12702–43.
Article
CAS
PubMed
Google Scholar
Zhang K, Sun J, Song J, Gao C, Wang Z, Song C, Wu Y, Liu Y. Self-healing Ti(3)C(2) MXene/PDMS supramolecular elastomers based on small biomolecules modification for wearable
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