References
- Ulanoff L. Google smart contact lenses move closer to reality. Available from: www.mashable.com/2014/04/21/google-smart-contact-lenses-patents/ Mashabe 2014
- CoolThings. Google smart contact lens lets diabetes patients monitor their glucose levels by the second. Available from: www.coolthings.com/google-smart-contact-lens/ CoolThings 2014
- Barad J, Buckland D, Chang J, et al. Microsoft and University of Washington partner on electronic contact lens research. Available from: www.medgadget.com/2012/01/microsoft-and-u-of-washington-partner-on-electronic-contact-lens-research.html 2012
- Orca S. Micro machines and opto-electronics on a contact lens. Available from: www.hplusmagazine.com/2009/11/20/micro-machines-and-opto-electronics-contact-lense/ H Plus Magazine 2009
- Chu MX, Miyajima K, Takahashi D, et al. Soft contact lens biosensor for in situ monitoring of tear glucose as non-invasive blood sugar assessment. Talanta 2011;83(3):960-5
- Lingley AR, Ali M, Liao Y, et al. A single-pixel wireless contact lens display. J Micromech Microeng 2011;21(12):125014
- Lingley AR, Otis BP, Shen TT, et al. A contact lens with integrated micro solar cells. Microsyst Technol 2012;18(4):45
- Yao H, Liao Y, Lingley AR, et al. A contact lens with integrated telecommunication circuit and sensors for wireless and continuous tear glucose monitoring. J Micromech Microeng 2012;22(7):075007
- Yao H, Shum AJ, Cowan M, et al. A contact lens with embedded sensor for monitoring tear glucose level. Biosens Bioelectron 2011;26(7):3290-6
- Thomas N, Laehdesmaeki I, Parviz BA. A contact lens with an integrated lactate sensor. Sens Actuators B Chem 2012;162(1):128-34
- Liao YT, Yao H, Lingley AR, et al. A 3-microW CMOS glucose sensor for wireless contact-lens tear glucose monitoring. IEEE J Solid-State Circuits 2012;47(1):335-44
- Falk M, Andoralov V, Blum Z, et al. Biofuel cell as a power source for electronic contact lenses. Biosens Bioelectron 2012;37(1):38-45
- Falk M, Andoralov V, Silow M, et al. Miniature biofuel cell as a potential power source for glucose-sensing contact lenses. Anal Chem 2013;85(13):6342-8
- Jones KS, Rudawski NG, Oladeji I, et al. The state of solid-state batteries. Am Ceram Soc Bull 2012;91(2):26-31
- Phillips A, Speedwell L. Contact lenses. Elsevier; NY, USA: 2007
- EU European Union Directive 2006 on Batteries and Accumulators. Available from: www.epa.gov 2006
- Ruzgas T, Shleev S, Arnebrant T. Flexible biofuel cell, device and method. WO patent application. 2011.EP54554: 31
- Yang J, Ghobadian S, Goodrich PJ, et al. Miniaturized biological and electrochemical fuel cells: challenges and applications. Phys Chem Chem Phys 2013;15(34):14147-61
- Katz E. Implantable bioelectronics. Wiley-VCH; Weinheim, Germany: 2014
- Cosnier S, Le Goff A, Holzinger M. Towards glucose biofuel cells implanted in human body for powering artificial organs: review. Electrochem Commun 2014;38:19-23
- Falk M, Narvaez Villarrubia CW, Babanova S, et al. Biofuel cells for biomedical applications: colonizing the animal kingdom. ChemPhysChem 2013;14(10):2045-58
- Katz E, MacVittie K. Implanted biofuel cells operating in vivo - methods, applications and perspectives - feature article. Energy Environ Sci 2013;6(10):2791-803
- Schroeder U. From in vitro to in vivo-biofuel cells are maturing. Angew Chem Int Ed 2012;51(30):7370-2
- Taormina CR, Baca JT, Asher SA, et al. Analysis of tear glucose concentration with electrospray ionization mass spectrometry. J Am Soc Mass Spectrom 2007;18(2):332-6
- Berman ER. Biochemistry of the eye. Plenum Press; NY and London: 1991
- Baca JT, Finegold DN, Asher SA. Tear glucose analysis for the noninvasive detection and monitoring of diabetes mellitus. Ocul Surf 2007;5(4):280-93
- Peng B, Lu J, Balijepalli AS, et al. Evaluation of enzyme-based tear glucose electrochemical sensors over a wide range of blood glucose concentrations. Biosens Bioelectron 2013;49:204-9
- Eter N, Gobbels M. A new technique for tear film fluorophotometry. Br J Ophthalmol 2002;86(6):616-19
- Choy CK, Cho P, Chung WY, et al. Water-soluble antioxidants in human tears: effect of the collection method. Invest Ophthalmol Vis Sci 2001;42(13):3130-4
- Gogia R, Richer SP, Rose RC. Tear fluid content of electrochemically active components including water soluble antioxidants. Curr Eye Res 1998;17(3):257-63
- Martin XD, Brennan MC. Dopamine and its metabolites in human tears. Eur J Ophthalmol 1993;3(2):83-8
- Agarwal S, Agarwal A, Apple DJ, et al. Textbook of ophthalmology. Jaypee Brothers Medical Publishers; New Delhi: 2002
- Pankratov D, Falkman P, Blum Z, et al. A hybrid electric power device for simultaneous generation and storage of electric energy. Energy Environ Sci 2014;7(3):989-93
- Pankratov D, Blum Z, Suyatin DB, et al. Self-charging electrochemical biocapacitor. ChemElectroChem 2014;2:343-6