Page 21 - Read Online
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Ma et al. Soft Sci 2024;4:8  https://dx.doi.org/10.20517/ss.2023.41              Page 9 of 9

                   era. Nat Rev Chem 2022;6:899-915.  DOI  PubMed  PMC
               15.      Wang M, Yang Y, Min J, et al. A wearable electrochemical biosensor for the monitoring of metabolites and nutrients. Nat Biomed Eng
                   2022;6:1225-35.  DOI  PubMed  PMC
               16.      Chen Y, Ma B, Zuo Y, et al. Versatile sweat bioanalysis on demand with hydrogel-programmed wearables. Biosens Bioelectron
                   2023;235:115412.  DOI
               17.      He T, Wen F, Yang Y, Le X, Liu W, Lee C. Emerging wearable chemical sensors enabling advanced integrated systems toward
                   personalized and preventive medicine. Anal Chem 2023;95:490-514.  DOI  PubMed
               18.      Gao W, Ota H, Kiriya D, Takei K, Javey A. Flexible electronics toward wearable sensing. Acc Chem Res 2019;52:523-33.  DOI
                   PubMed
               19.      Ray TR, Choi J, Bandodkar AJ, et al. Bio-integrated wearable systems: a comprehensive review. Chem Rev 2019;119:5461-533.  DOI
               20.      Gao W, Emaminejad S, Nyein HYY, et al. Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis. Nature
                   2016;529:509-14.  DOI  PubMed  PMC
               21.      Nakata S, Arie T, Akita S, Takei K. Wearable, flexible, and multifunctional healthcare device with an ISFET chemical sensor for
                   simultaneous sweat pH and skin temperature monitoring. ACS Sens 2017;2:443-8.  DOI  PubMed
               22.      Zhang X, Xia Y, Liu Y, Mugo SM, Zhang Q. Integrated wearable sensors for sensing physiological pressure signals and β-
                   hydroxybutyrate in physiological fluids. Anal Chem 2022;94:993-1002.  DOI
               23.      Min J, Tu J, Xu C, et al. Skin-interfaced wearable sweat sensors for precision medicine. Chem Rev 2023;123:5049-138.  DOI  PubMed
                   PMC
               24.      Bariya M, Nyein HYY, Javey A. Wearable sweat sensors. Nat Electron 2018;1:160-71.  DOI
               25.      Kaur G, Kaur N. Estimation of sodium ions using easily engineered organic nanoparticles-based turn-on fluorescent sensor: application
                   in biological and environmental samples. Sens Actuators B Chem 2018;265:134-41.  DOI
               26.      Gonçalves AC, Marson FAL, Mendonça RMH, et al. Chloride and sodium ion concentrations in saliva and sweat as a method to
                   diagnose cystic fibrosis. J Pediatr 2019;95:443-50.  DOI  PubMed
               27.      Speedy DB, Noakes TD, Schneider C. Exercise-associated hyponatremia: a review. Emerg Med 2001;13:17-27.  DOI  PubMed
               28.      Meng K, Xiao X, Wei W, et al. Wearable pressure sensors for pulse wave monitoring (Adv. Mater. 21/2022).  Adv Mater
                   2022;34:2270158.  DOI
               29.      Lin PH, Sheu SC, Chen CW, Huang SC, Li BR. Wearable hydrogel patch with noninvasive, electrochemical glucose sensor for natural
                   sweat detection. Talanta 2022;241:123187.  DOI  PubMed
               30.      Nyein HYY, Bariya M, Tran B, et al. A wearable patch for continuous analysis of thermoregulatory sweat at rest. Nat Commun
                   2021;12:1823.  DOI  PubMed  PMC
               31.      Wu X, Zhu J, Evans JW, Lu C, Arias AC. A potentiometric electronic skin for thermosensation and mechanosensation. Adv Funct
                   Mater 2021;31:2010824.  DOI
               32.      Dobashi Y, Yao D, Petel Y, et al. Piezoionic mechanoreceptors: force-induced current generation in hydrogels. Science 2022;376:502-
                   7.  DOI  PubMed
               33.      Li J, Li J, Tang Y, et al. Touchable gustation via a hoffmeister gel iontronic sensor. ACS Nano 2023;17:5129-39.  DOI  PubMed
               34.      Ma B, Chi J, Xu C, Ni Y, Zhao C, Liu H. Wearable capillary microfluidics for continuous perspiration sensing.  Talanta
                   2020;212:120786.  DOI
               35.      Sekine Y, Kim SB, Zhang Y, et al. A fluorometric skin-interfaced microfluidic device and smartphone imaging module for in situ
                   quantitative analysis of sweat chemistry. Lab Chip 2018;18:2178-86.  DOI  PubMed
               36.      Choi J, Bandodkar AJ, Reeder JT, et al. Soft, skin-integrated multifunctional microfluidic systems for accurate colorimetric analysis of
                   sweat biomarkers and temperature. ACS Sens 2019;4:379-88.  DOI  PubMed
               37.      Glennon T, O’quigley C, McCaul M, et al. ‘SWEATCH’: a wearable platform for harvesting and analysing sweat sodium content.
                   Electroanalysis 2016;28:1283-9.  DOI
               38.      Demuru S, Kunnel BP, Briand D. Real-time multi-ion detection in the sweat concentration range enabled by flexible, printed, and
                   microfluidics-integrated organic transistor arrays. Adv Mater Technol 2020;5:2000328.  DOI
               39.      Parrilla M, Ortiz-Gómez I, Cánovas R, Salinas-Castillo A, Cuartero M, Crespo GA. Wearable potentiometric ion patch for on-body
                   electrolyte monitoring in sweat: toward a validation strategy to ensure physiological relevance. Anal Chem 2019;91:8644-51.  DOI
                   PubMed
               40.      Buono MJ, Ball KD, Kolkhorst FW. Sodium ion concentration vs. sweat rate relationship in humans. J Appl Physiol 2007;103:990-4.
                   DOI  PubMed
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