Pd-based nanoporous metals for enzyme-free electrochemical glucose sensors
-
关键词:
- Glucose sensors
- / Pd-based NPM
- / Dealloying
- / Electrochemical
English
Pd-based nanoporous metals for enzyme-free electrochemical glucose sensors
-
Key words:
- Glucose sensors
- / Pd-based NPM
- / Dealloying
- / Electrochemical
-
-
-
[1] A. Heller, B. Feldman, Electrochemical glucose sensors and their applications in diabetes management, Chem. Rev. 108 (2008) 2482-2505.[1] A. Heller, B. Feldman, Electrochemical glucose sensors and their applications in diabetes management, Chem. Rev. 108 (2008) 2482-2505.
-
[2] J. Wang, Electrochemical glucose biosensors, Chem. Rev. 108 (2008) 814-825.[2] J. Wang, Electrochemical glucose biosensors, Chem. Rev. 108 (2008) 814-825.
-
[3] X.Y. Wang, S.Q. Liu, K.L. Huang, et al., Fixation of CO2 by electrocatalytic reduction to synthesis of dimethyl carbonate in ionic liquid using effective silver-coated nanoporous copper composites, Chin. Chem. Lett. 21 (2010) 987-990.[3] X.Y. Wang, S.Q. Liu, K.L. Huang, et al., Fixation of CO2 by electrocatalytic reduction to synthesis of dimethyl carbonate in ionic liquid using effective silver-coated nanoporous copper composites, Chin. Chem. Lett. 21 (2010) 987-990.
-
[4] S. Park, T.D. Chung, H.C. Kim, Nonenzymatic glucose detection using mesoporous platinum, Anal. Chem. 75 (2003) 3046-3049.[4] S. Park, T.D. Chung, H.C. Kim, Nonenzymatic glucose detection using mesoporous platinum, Anal. Chem. 75 (2003) 3046-3049.
-
[5] J. Wang, D.F. Thomas, A. Chen, Nonenzymatic electrochemical glucose sensor based on nanoporous PtPb network, Anal. Chem. 80 (2003) 997-1004.[5] J. Wang, D.F. Thomas, A. Chen, Nonenzymatic electrochemical glucose sensor based on nanoporous PtPb network, Anal. Chem. 80 (2003) 997-1004.
-
[6] S. Park, H. Boo, T.D. Chung, Electrochemical non-enzymatic glucose sensors, Anal. Chim. Acta 556 (2006) 46-57.[6] S. Park, H. Boo, T.D. Chung, Electrochemical non-enzymatic glucose sensors, Anal. Chim. Acta 556 (2006) 46-57.
-
[7] C.X. Xu, Y.Q. Liu, F. Su, et al., Nanoporous PtAg and PtCu alloys with hollow ligament for enhanced electrocatalysis and glucose biosensing, Biosens. Bioelectron. 27 (2011) 160-166.[7] C.X. Xu, Y.Q. Liu, F. Su, et al., Nanoporous PtAg and PtCu alloys with hollow ligament for enhanced electrocatalysis and glucose biosensing, Biosens. Bioelectron. 27 (2011) 160-166.
-
[8] D. van Noort, C.F. Mandenius, Porous gold surface for biosensor applications, Biosens Bioelectron. 15 (2000) 203-209.[8] D. van Noort, C.F. Mandenius, Porous gold surface for biosensor applications, Biosens Bioelectron. 15 (2000) 203-209.
-
[9] Z. Liu, L. Huang, L. Zhang, et al., Electrocatalytic oxidation of D-glucose at nanoporous Au and Au-Ag alloy electrodes in alkaline aqueous solutions, Electrochim. Acta 54 (2009) 7286-7293.[9] Z. Liu, L. Huang, L. Zhang, et al., Electrocatalytic oxidation of D-glucose at nanoporous Au and Au-Ag alloy electrodes in alkaline aqueous solutions, Electrochim. Acta 54 (2009) 7286-7293.
-
[10] Y. Ding, Y.J. Kim, J. Erlebacher, Nanoporous gold leaf: "Ancient technology"/advanced material, J. Adv. Mater. 16 (2004) 1897-1900.[10] Y. Ding, Y.J. Kim, J. Erlebacher, Nanoporous gold leaf: "Ancient technology"/advanced material, J. Adv. Mater. 16 (2004) 1897-1900.
-
[11] H.M. Yin, C.Q. Zhou, C. Xu, et al., Aerobic oxidation of D-glucose on support-free nanoporous gold, J. Phys. Chem. C 112 (2008) 9673-9678.[11] H.M. Yin, C.Q. Zhou, C. Xu, et al., Aerobic oxidation of D-glucose on support-free nanoporous gold, J. Phys. Chem. C 112 (2008) 9673-9678.
-
[12] N. Tavakkoli, S. Nasrollahi, Non-enzymatic glucose sensor based on palladium coated nanoporous gold film electrode, Aust. J. Chem. 66 (2013) 1097-1104.[12] N. Tavakkoli, S. Nasrollahi, Non-enzymatic glucose sensor based on palladium coated nanoporous gold film electrode, Aust. J. Chem. 66 (2013) 1097-1104.
-
[13] H.Y. Bai, M. Han, Y.Z. Du, et al., Facile synthesis of porous tubular palladium nanostructures and their application in a nonenzymatic glucose sensor, Chem. Commun. 46 (2010) 1739-1741.[13] H.Y. Bai, M. Han, Y.Z. Du, et al., Facile synthesis of porous tubular palladium nanostructures and their application in a nonenzymatic glucose sensor, Chem. Commun. 46 (2010) 1739-1741.
-
[14] X. Chen, Z. Cai, Z. Lin, et al., A novel non-enzymatic ECL sensor for glucose using palladium nanoparticles supported on functional carbon nanotubes, Biosens Bioelectron. 24 (2009) 3475-3480.[14] X. Chen, Z. Cai, Z. Lin, et al., A novel non-enzymatic ECL sensor for glucose using palladium nanoparticles supported on functional carbon nanotubes, Biosens Bioelectron. 24 (2009) 3475-3480.
-
[15] J. Erlebacher, An atomistic description of dealloying porosity evolution, the critical potential, and rate-limiting behavior, J. Electrochem. Soc. 151 (2004) C614-C626.[15] J. Erlebacher, An atomistic description of dealloying porosity evolution, the critical potential, and rate-limiting behavior, J. Electrochem. Soc. 151 (2004) C614-C626.
-
[16] J.L. Xu, Y. Wang, Z.H. Zhang, Potential and concentration dependent electrochemical dealloying of Al2Au in sodium chloride solutions, J. Phys. Chem. C 116 (2012) 5689-5699.[16] J.L. Xu, Y. Wang, Z.H. Zhang, Potential and concentration dependent electrochemical dealloying of Al2Au in sodium chloride solutions, J. Phys. Chem. C 116 (2012) 5689-5699.
-
[17] J. Erlebacher, M.J. Aziz, A. Karma, et al., Evolution of nanoporosity in dealloying, Nature 410 (2001) 450-453.[17] J. Erlebacher, M.J. Aziz, A. Karma, et al., Evolution of nanoporosity in dealloying, Nature 410 (2001) 450-453.
-
[18] L.H. Qian, M.W. Chen, Ultrafine nanoporous gold by low temperature dealloying and kinetics of nanopore formation, Appl. Phys. Lett. 91 (2007) 083105-183105.[18] L.H. Qian, M.W. Chen, Ultrafine nanoporous gold by low temperature dealloying and kinetics of nanopore formation, Appl. Phys. Lett. 91 (2007) 083105-183105.
-
[19] Y. Kuang, B. Wu, D. Hu, et al., One-pot synthesis of highly dispersed palladium nanoparticles on acetylenic ionic liquid polymer functionalized carbon nanotubes for electrocatalytic oxidation of glucose, J. Solid State Electrochem. 16 (2012) 759-766.[19] Y. Kuang, B. Wu, D. Hu, et al., One-pot synthesis of highly dispersed palladium nanoparticles on acetylenic ionic liquid polymer functionalized carbon nanotubes for electrocatalytic oxidation of glucose, J. Solid State Electrochem. 16 (2012) 759-766.
-
[20] L.Y. Chen, X.Y. Lang, T. Fujita, et al., Nanoporous gold for enzyme-free electrochemical glucose sensors, Scr. Mater. 65 (2011) 17-20.[20] L.Y. Chen, X.Y. Lang, T. Fujita, et al., Nanoporous gold for enzyme-free electrochemical glucose sensors, Scr. Mater. 65 (2011) 17-20.
-
-
扫一扫看文章
计量
- PDF下载量: 0
- 文章访问数: 1510
- HTML全文浏览量: 23

下载: