TurnerAP. Biosensors: sense and sensibility. Chem Soc Rev2013; 42: 3184–3196.
2.
CamõesMF. A century of pH measurements. Chem Int--New for IUPAC2010; 32: 3–7.
3.
BhallaNJollyPFormisanoN, et al.Introduction to biosensors. Essays Biochem2016; 60: 1–8.
4.
ZhangXGuoQCuiD. Recent advances in nanotechnology applied to biosensors. Sensors2009; 9: 1033–1053.
5.
CremerM. Über die Ursache der elektromotorischen Eigenschaften der Gewebe, zugleich ein Beitrag zur Lehre von den polyphasischen Elektrolytketten. Munich: R. Oldenbourg, 1906.
6.
HughesWS. The potential difference between glass and electrolytes in contact with the glass. J Am Chem Soc1922; 44: 2860–2867.
7.
GriffinEGNelsonJ. The influence of certain substances on the activity of invertase. J Am Chem Soc1916; 38: 722–730.
8.
NelsonJGriffinEG. Adsorption of invertase. J Am Chem Soc1916; 38: 1109–1115.
9.
HeinemanWRJensenWB. Leland c. Clark Jr. (1918–2005). Biosens Bioelectron2006; 21: 1403–1404.
10.
GuilbaultGGMontalvoJGJr. A urea-specific enzyme electrode. J Am Chem Soc1969; 91: 2164–2165.
11.
VestergaardMCTamiyaE. Nanobiosensors and nanobioanalyses: a review. Nanobiosensors and Nanobioanalyses2015; 1: 3–20.
12.
YooE-HLeeS-Y. Glucose biosensors: an overview of use in clinical practice. Sensors2010; 10: 4558–4576.
13.
SuzukiSTakahashiFSatohI, et al.Ethanol and lactic acid sensors using electrodes coated with dehydrogenase—collagen membranes. Bull Chem Soc Jpn1975; 48: 3246–3249.
14.
LiedbergBNylanderCLunströmI. Surface plasmon resonance for gas detection and biosensing. Sensor Actuator1983; 4: 299–304.
15.
CassAEDavisGFrancisGD, et al.Ferrocene-mediated enzyme electrode for amperometric determination of glucose. Anal Chem1984; 56: 667–671.
16.
LiMJiangFXueL, et al.Recent progress in biosensors for detection of tumor biomarkers. Molecules2022; 27: 7327.
17.
JustinoCIDuarteACRocha-SantosTA. Recent progress in biosensors for environmental monitoring: a review. Sensors2017; 17: 2918.
18.
ZhouYTangLZengG, et al.Current progress in biosensors for heavy metal ions based on DNAzymes/DNA molecules functionalized nanostructures: a review. Sensor Actuator B Chem2016; 223: 280–294.
19.
ZhangZ. Recent progress in biosensors based on biorecognition molecules. Biosensors2023; 13: 842.
20.
PohankaM. Progress in biosensors for the point-of-care diagnosis of COVID-19. Sensors2022; 22: 7423.
21.
SharmaAFaberHKhoslaA, et al.3D printed electrochemical devices for bio-chemical sensing: a review. Mater Sci Eng R Rep2023; 156: 100754.
22.
SempionattoJRLasalde-RamírezJAMahatoKWangJGaoW. Wearable chemical sensors for biomarker discovery in the omics era. Nat Rev Chem2022; 6: 899–915.
23.
CuiFYueYZhangYZhangZZhouHS. Advancing biosensors with machine learning. ACS Sens2020; 5: 3346–3364.
24.
YukHLuBZhaoX. Hydrogel bioelectronics. Chemical Society Reviews2019; 48: 1642–1667.
25.
ElbadawiMBasitAWGaisfordS. Energy consumption and carbon footprint of 3D printing in pharmaceutical manufacture. Int J Pharm2023; 639: 122926.
26.
Khodadadi YazdiMJabbourKSajadiSM, et al.Drug delivery systems based on renewable polymers: a conceptual short review. Polym Renew Resour2022; 13: 44–54.
27.
MaCXuWWichertWR, et al.Ion accumulation and migration effects on redox cycling in nanopore electrode arrays at low ionic strength. ACS Nano2016; 10: 3658–3664.
28.
ClarkMADomingoNGColganK, et al.Global food system emissions could preclude achieving the 1.5° and 2°C climate change targets. Science2020; 370: 705–708.
29.
CostaCJrWollenbergEBenitezM, et al.Roadmap for achieving net-zero emissions in global food systems by 2050. Sci Rep2022; 12: 15064.
30.
RabieeNDokmeciMRZarrabiA, et al.Green Biomaterials: fundamental principles. Milton Park: Taylor & Francis, 2023, 1–4.
31.
DunnJKidzinskiLRungeR, et al.Wearable sensors enable personalized predictions of clinical laboratory measurements. Nat Med2021; 27: 1105–1112.
32.
VermaDSinghKRYadavAK, et al.Internet of things (IoT) in nano-integrated wearable biosensor devices for healthcare applications. Biosens and Bioelectron: X2022; 11: 100153.
33.
SomeyaTBaoZMalliarasGG. The rise of plastic bioelectronics. Nature2016; 540: 379–385.
