Biofuel Cells. Группа авторов

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СКАЧАТЬ in a living plant. J. Am. Chem. Soc., 125, 6588, 2003.

      23. Andoralov, V., Falk, M., Suyatin, D.B., Granmo, M., Sotres, J., Ludwig, R., Popov, V.O., Schouenborg, J., Blum, Z., Shleev, S., Biofuel cell based on microscale nanostructured electrodes with inductive coupling to rat brain neurons. Sci. Rep., 3, 3270, 2013.

      24. Kilic, M.S., Korkut, S., Hazer, B., Erhan, E., Development and operation of gold and cobalt oxide nanoparticles containing polypropylene based enzymatic fuel cell for renewable fuels. Biosens. Bioelectron, 61, 500, 2014.

25. Korkut, S., Kilic, M.S., Design of a mediated enzymatic fuel cell to generate power from renewable fuel sources. Environ. Technol., 37, 163, 2016.

      26. Korkut, S., Kilic, M.S., Uzuncar, S., Hazer, B., Novel Graphene-modified poly(styrene-b-isoprene-b-styrene) enzymatic fuel cell with operation in plant leaves. Anal. Lett., 49, 2322, 2016.

      27. Cinquin, P., Gondran, C., Giroud, F., Mazabrard, S., Pellissier, A., Boucher, F., Alcaraz, J.-P., Gorgy, K., Lenouvel, F., Mathé, S., Porcu, P., Cosnier, S., A glucose biofuel cell implanted in rats. Plos One, 5, e10476, 2010.

      28. Rasmussen, M., Ritzmann, R.E., Lee, I., Pollack, A.J., Scherson, D., An implantable biofuel cell for a live insect. J. Am. Chem. Soc., 134, 1458, 2012.

      29. Halámková, L., Halámek, J., Bocharova, V., Szczupak, A., Alfonta, L., Katz, E., Implanted biofuel cell operating in a living snail. J. Am. Chem. Soc., 134, 5040, 2012.

      30. MacVittie, K., Halámek, J., Halámková, L., Southcott, M., Jemison, W.D., Lobel, R., Katz, E., From “cyborg” lobsters to a pacemaker powered by implantable biofuel cells. Energy Environ. Sci., 6, 81, 2013.

      31. Szczupak, A., Halámek, J., Halámková, L., Bocharova, V., Alfonta, L., Katz, E., Living battery—Biofuel cells operating in vivo in clams. Energ. Environ. Sci., 5, 8891, 2012.

      32. Miyake, T., Haneda, K., Nagai, N., Yatagawa, Y., Onami, H., Yoshino, S., Abe, T., Nishizawa, M., Enzymatic biofuel cells designed for direct power generation from biofluids in living organisms. Energ. Environ. Sci., 4, 5008, 2011.

      33. Zebda, A., Cosnier, S., Alcaraz, J.-P., Holzinger, M., Le Goff, A., Gondran, C., Boucher, F., Giroud, F., Gorgy, K., Lamraoui, H., Cinquin, P., Single glucose biofuel cells implanted in rats power electronic devices. Sci. Rep., 3, 1516, 2013.

      34. Sales, F.C.P.F., Iost, R.M., Martins, M.V.A., Almeida, M.C., Crespilho, F.N., An intravenous implantable glucose/dioxygen biofuel cell with modified flexible carbon fiber electrodes. Lab Chip, 13, 468, 2013.

      35. Dong, K., Jia, B., Yu, C., Dong, W., Du, F., Liu, H., Microbial fuel cell as power supply for implantable medical devices: A novel configuration design for simulating colonic environment. Biosens. Bioelectron., 41, 916, 2013.

      36. Han, Y., Yu, C., Liu, H., A microbial fuel cell as power supply for implantable medical devices. Biosens. Bioelectron., 25, 2156, 2010.

      37. Gonzalez-Solino, C., Lorenzo, M., Enzymatic fuel cells: Towards self-powered implantable and wearable diagnostics. Biosensors, 8, 11, 2018.

      38. Yin, S., Jin, Z., Miyake, T. Wearable high-powered biofuel cells using enzyme/carbon nanotube composite fibers on textile cloth. Biosens. Bioelectron., 141, 111471, 2019.

      39. Huang, X., Zhang, L., Zhang, Z., Guo, S., Shang, H., Li, Y., Liu, J., Wearable biofuel cells based on the classification of enzyme for high power outputs and lifetimes. Biosens. Bioelectron., 124-125, 40, 2019.

40. Jia, W., Wang, X., Imani, S., Bandodkar, A.J., Ramírez, J., Mercier, P.P., Wang, J., Wearable textile biofuel cells for powering electronics. J. Mater. Chem. A, 2, 18184, 2014.

      41. Ogawa, Y., Takai, Y., Kato, Y., Kai, H., Miyake, T., Nishizawa, M., Stretchable biofuel cell with enzyme-modified conductive textiles. Biosens. Bioelectron., 74, 947, 2015.

      42. Lv, J., Jeerapan, I., Tehrani, F., Yin, L., Silva-Lopez, C.A., Jang, J.-H., Joshuia, D., Shah, R., Liang, Y., Xie, L., Soto, F., Chen, C., Karshalev, E., Kong, C., Yang, Z., Wang, J., Sweat-based wearable energy harvesting-storage hybrid textile devices. Energ. Environ. Sci., 11, 3431, 2018.

      43. Miyake, T., Haneda, K., Yoshino, S., Nishizawa, M., Flexible, layered biofuel cells. Biosens. Bioelectron., 40, 45, 2013.

      44. Lui, G., Jiang, G., Lenos, J., Lin, E., Fowler, M., Yu, A., Chen, Z., Advanced biowaste-based flexible photocatalytic fuel cell as a green wearable power generator. Adv. Mater. Technol., 2, 1600191, 2017.

      45. Feng, R., Tang, F., Zhang, N., Wang, X., Flexible, high-power density, wearable thermoelectric nanogenerator and self-powered temperature sensor. Acs Appl. Mater. Inter., 11, 38616, 2019.

      46. Chen, X., Yin, L., Lv, J., Gross, A.J., Le, M., Gutierrez, N.G., Li, Y., Jeerapan, I., Giroud, F., Berezovska, A., O’Reilly, R.K., Xu, S., Cosnier, S., Wang, J., Stretchable and Flexible buckypaper‐based lactate biofuel cell for wearable electronics. Adv. Funct. Mater., 29, 1905785, 2019.

      47. Jia, W., Valdés-Ramírez, G., Bandodkar, A.J., Windmiller, J.R., Wang, J., Epidermal biofuel cells: Energy harvesting from human perspiration. Angew. Chem. Int. Edit., 52, 7233, 2013.

      48. Reid, R.C., Minteer, S.D., Gale, B.K., Contact lens biofuel cell tested in a synthetic tear solution. Biosens. Bioelectron., 68, 142, 2015.

      49. Xiao, X., Siepenkoetter, T., Conghaile, P.Ó., Leech, D., Magner, E., Nanoporous gold-based biofuel cells on contact lenses. Acs Appl. Mater. Inter., 10, 7107, 2018.

      50. Bandodkar, A.J., Review-wearable biofuel cells: Past, present and future. J. Electrochem. Soc., 164, H3007, 2017.

      1 *Corresponding author: [email protected]

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