Body Sensor Networking, Design and Algorithms. Saeid Sanei
Чтение книги онлайн.
Читать онлайн книгу Body Sensor Networking, Design and Algorithms - Saeid Sanei страница 30
52 52 Wang, B., Takahashi, S., Du, X., and Anzai, J. (2014). Electrochemical biosensors based on ferroceneboronic acid and its derivatives: a review. Biosensors (Basel) 4: 243–256.
53 53 Erden, P.E. and Kilic, E. (2013). A review of enzymatic uric acid biosensors based on amperometric detection. Talanta 107: 312–323.
54 54 Kim, J., Imani, S., de Araujo, W.R. et al. (2015). Wearable salivary uric acid mouthguard biosensor with integrated wireless electronics. Biosensors & Bioelectronics 74: 1061–1068.
55 55 Pundir, C.S. and Chauhan, N. (2012). Acetylcholinesterase inhibition-based biosensors for pesticide determination: a review. Analytical Biochemistry 429: 19–31.
56 56 Marrazza, G. (2014). Piezoelectric biosensors for organophosphate and carbamate pesticides: a review. Biosensors (Basel) 4: 301–317.
57 57 Schneider, E. and Clark, D.S. (2013). Cytochrome P450 (CYP) enzymes and the development of CYP biosensors. Biosensors & Bioelectronics 39: 1–13.
58 58 Khimji, I., Kelly, E.Y., Helwa, Y. et al. (2013). Visual optical biosensors based on DNA-functionalized polyacrylamide hydrogels. Methods 64: 292–298.
59 59 Peng, F., Su, Y., Zhong, Y. et al. (2014). Silicon nanomaterials platform for bioimaging, biosensing, and cancer therapy. Accounts of Chemical Research 47: 612–623.
60 60 Shen, M.Y., Li, B.R., and Li, Y.K. (2014). Silicon nanowire field-effect-transistor based biosensors: from sensitive to ultra-sensitive. Biosensors & Bioelectronics 60: 101–111.
61 61 Ogi, H. (2013). Wireless-electrodeless quartz-crystal-microbalance biosensors for studying interactions among biomolecules: a review. Proceedings of the Japan Academy. Series B, Physical and Biological Sciences 89: 401–417.
62 62 Li, M., Li, R., Li, C.M., and Wu, N. (2011). Electrochemical and optical biosensors based on nanomaterials and nanostructures: a review. Frontiers in Bioscience (Scholar Edition) 3: 1308–1331.
63 63 Kwon, S.J. and Bard, A.J. (2012). DNA analysis by application of Pt nanoparticle electrochemical amplification with single label response. Journal of the American Chemical Society 134: 10777–10779.
64 64 Zhou, Y., Chiu, C.W., and Liang, H. (2012). Interfacial structures and properties of organic materials for biosensors: an overview. Sensors (Basel) 12: 15036–15062.
65 65 Guo, X. (2013). Single-molecule electrical biosensors based on single-walled carbon nanotubes. Advanced Materials 25: 3397–3408.
66 66 Hutter, E. and Maysinger, D. (2013). Gold-nanoparticle-based biosensors for detection of enzyme activity. Trends in Pharmacological Sciences 34: 497–507.
67 67 Ko, P.J., Ishikawa, R., Sohn, H., and Sandhu, A. (2013). Porous silicon platform for optical detection of functionalized magnetic particles biosensing. Journal of Nanoscience and Nanotechnology 13: 2451–2460.
68 68 Senveli, S.U. and Tigli, O. (2013). Biosensors in the small scale: methods and technology trends. IET Nanobiotechnology 7: 7–21.
69 69 Valentini, F., Galache, F.L., Tamburri, E., and Palleschi, G. (2013). Single walled carbon nanotubes/polypyrrole-GOx composite films to modify gold microelectrodes for glucose biosensors: study of the extended linearity. Biosensors & Bioelectronics 43: 75–78.
70 70 Lamprecht, C., Hinterdorfer, P., and Ebner, A. (2014). Applications of biosensing atomic force microscopy in monitoring drug and nanoparticle delivery. Expert Opinion on Drug Delivery 11: 1237–1253.
71 71 Sang, S., Wang, Y., Feng, Q. et al. (2015). Progress of new label-free techniques for biosensors: a review. Critical Reviews in Biotechnology 15: 1–17.
72 72 Randriamampita, C. and Lellouch, A.C. (2014). Imaging early signaling events in T lymphocytes with fluorescent biosensors. Biotechnology Journal 9: 203–212.
73 73 Oldach, L. and Zhang, J. (2014). Genetically encoded fluorescent biosensors for live-cell visualization of protein phosphorylation. Chemistry & Biology 21: 186–197.
74 74 Kunzelmann, S., Solscheid, C., and Webb, M.R. (2014). Fluorescent biosensors: design and application to motor proteins. Experientia Supplementum 105: 25–47.
75 75 Wang, S., Poon, G.M., and Wilson, W.D. (2015). Quantitative investigation of protein-nucleic acid interactions by biosensor surface plasmon resonance. Methods in Molecular Biology 1334: 313–332.
76 76 Gutierrez, J.C., Amaro, F., and Martin-Gonzalez, A. (2015). Heavy metal whole-cell biosensors using eukaryotic microorganisms: an updated critical review. Frontiers in Microbiology 6 (48): 1–8.
77 77 Sun, J.Z., Peter, K.G., Si, R.W. et al. (2015). Microbial fuel cell-based biosensors for environmental monitoring: a review. Water Science and Technology 71 (6): 801–809.
Конец ознакомительного фрагмента.
Текст предоставлен ООО «ЛитРес».
Прочитайте эту книгу целиком, купив полную легальную версию на ЛитРес.
Безопасно оплатить книгу можно банковской картой Visa, MasterCard, Maestro, со счета мобильного телефона, с платежного терминала, в салоне МТС или Связной, через PayPal, WebMoney, Яндекс.Деньги, QIWI Кошелек, бонусными картами или другим удобным Вам способом.