| Platinum nanocomposites and its applications: A review |
|
Sharon, Madhuri
(Walchand Centre for Research in Nanotechnology and Bionanotechnology)
Nandgavkar, Isaac (Walchand Centre for Research in Nanotechnology and Bionanotechnology) Sharon, Maheshwar (Walchand Centre for Research in Nanotechnology and Bionanotechnology) |
| 1 | Diloyan, G., Marcus, S., Das, K. and Hutapea, P. (2012), "Effect of mechanical vibration on Pt particle agglomeration and growth in polymer electrolyte membrane fuel cell catalyst layers", J. Pow. Source, 214, 59-67. DOI |
| 2 | Dobrzanska-Danikiewicz, A.D. and Kukowiec, D. (2013), "Synthesis and characterization of Pt/MWCNT nanocomposites", Phys. Stat. Sol. B, 250(12), 1-6. DOI |
| 3 | Dutt, S. and Siril, P.F. (2015), "Controlling the morphology of polyaniline-Pt nanocomposites using swollen liquid crystal templates", Synthet. Metal., 209, 82-909. DOI |
| 4 | Engin, C., Sabolsky, K. and Sabolsky, E.M. (2013), "Pt thin film electrodes for high-temperature chemical sensor applications", Sens. Actuat. B, Chem., 181, 702-714. DOI |
| 5 | Engin, E., Huseyin, C. and Erk, N. (2016), "A novel electrochemical nano-platform based on graphene/Pt NP/nafion composites for the electrochemical sensing of metoprolol", Sens. Actuat. B, Chem., 238, 779-787. |
| 6 | Esumi, K., Takei, N. and Yoshimura, T. (2003), "Antioxidant-potentiality of gold-chitosan nanocomposites", Coll. Surf. B, 32(2), 117-123. DOI |
| 7 | Evans, S.A.G., Elliott, J.M., Andrews, L.M., Bartlett, P.N., Doyle, P.J. and Denuault, G. (2002), "Detection of hydrogen peroxide at mesoporous Pt microelectrodes", Anal. Chem., 74(6), 1322-1326. DOI |
| 8 | Ferreira, V.C., Melato, A.I., Silva, A.F. and Abrantes, L.M. (2011), "Conducting polymers with attached Pt NP towards the development of DNA biosensors", Electrochem. Commun., 13(9), 993-996. DOI |
| 9 | Gooding, J.J., Praig, V.G., Hall, E.A.H. and Gooding, J.J. (1998), "Pt-catalyzed enzyme electrodes immobilized on gold using self-assembled layers", Anal. Chem., 70(11), 2396-2402. DOI |
| 10 | Gouse, P.S., Sahu, A.K., Arunchander, A., Nath, K. and Bhat, S.D. (2015), "Deoxyribonucleic acid directed metallization of Pt NP on graphite nanofibers as a durable oxygen reduction catalyst for polymer electrolyte fuel cells", J. Pow. Sour., 297, 379-387. DOI |
| 11 | Gowthaman, N.S.K., Srinivasan K. and Abraham, J.S. (2016), "Monitoring isoniazid level in human fluids in the presence of theophylline using gold @ Pt core@shell NP modified glassy carbon electrode", Sens. Actuat. B, Chem., 230, 157-166. DOI |
| 12 | Halakoo, E., Khademi, A., Ghohari, M. and Ismail, A.F. (2015), "Production of sustainable energy by carbon nanotube/Pt catalyst in microbial fuel cell", Proc. CIRP, 26, 473-476. DOI |
| 13 | Haridas, D., Chowdhuri, A., Sreenivas, K. and Gupta, V. (2011), "Effect of thickness of Pt catalyst clusters on response of SnO2 thin film sensor for LPG", Sens. Actuat. B, Chem., 153(1), 89-95. DOI |
| 14 | He, G., Yang, S., Liu, K., Walter, A., Chen, S. and Chen, S. (2013), "Oxygen reduction catalyzed by Pt NP supported on graphene quantum dots", ACS Catal., 3, 831-838. DOI |
| 15 | Hosseini, S.Y., Raoof, J.B., Ghasemi, S. and Gholami, Z. (2015), "Synthesis of Pt-Cu/poly(o-Anisidine)nanocomposite onto carbon paste electrode and its application for methanol oxidation", J. Hydrog. Energy, 40, 292-302. DOI |
| 16 | Lian, W., Liu, S., Yu, J., Xing, X., Li, J., Cui, M. and Huang, J. (2012), "Electrochemical sensor based on gold NP fabricated molecularly imprinted polymer film at chitosan-Pt NP/grapheme-gold NP double nanocomposites modified electrode for detection of erythromycin", Biosens. Bioelectron., 38(1), 163-169. DOI |
| 17 | Kalisman, P., Nakibli, Y. and Amirav, L. (2016a), "Perfect photon-to-hydrogen conversion efficiency", Nano Lett., 16(3), 1776-1781. DOI |
| 18 | Kalisman, P., Lothar, H., Eran, A., Yaron, K., Maya, B.S. and Lilac, A. (2015), "The golden gate to photocatalytic hydrogen production", J. Mater. Chem. A, 3, 19679-19682. DOI |
| 19 | Kamrul, H., Uddin, A.S.M., Iftekhar, U., Kim, F. and Chung, G.S. (2016), "Pt/palladium bimetallic ultrathin film decorated on a one-dimensional ZnO nanorods array for use as fast response flexible hydrogen sensor", Mater. Lett., 176, 232-236. DOI |
| 20 | Li, Z., Cui, X., Zhang, X., Wang, Q., Shao, Y. and Lin, Y. (2009), "Pt/carbon nanofibers nanocomposite as electrocatalysts for direct methanol fuel cells, prominent effects of carbon nanofibers nanostructures", J. Nanosci. Nanotechnol., 9, 2316-2323. DOI |
| 21 | Liang, A., Li, Y., Zhu, W., Wang, Y., Huang, F., Wu, H. and Cao, Y. (2013), "Novel cyclometalated Pt (II) complex containing carrier-transporting groups, Synthesis, luminescence and application in single dopant white PLEDs", Dyes Pigm., 96(3), 732-737. DOI |
| 22 | Sakaue, Y., Kim, J. and Miyamoto, Y. (2010), "Effects of TAT-conjugated Pt NP on life span of mitochondrial electron transport complex I-deficient caenorhabditis elegans nuo-I", J. Nanomed., 5, 687-695. DOI |
| 23 | Raicopol, M.D., Andronescu, C., Atasiei, R., Hanganu, A., Vasile, E., Brezoiu, A.M. and Pilan, L. (2016), "Organic layers via aryl diazonium electrochemistry, towards modifying Pt electrodes for interference free glucose biosensors", Electrochim. Acta, 206, 226-237. DOI |
| 24 | Rathod, D., Dickinson, C., Egan, D. and Dempsey, E. (2010), "Pt NP decoration of carbon materials with applications in non-enzymatic glucose sensing", Sens. Actuat. B, Chem., 143(2), 547-554. DOI |
| 25 |
Roy, N., Keung, K.T. and Pradhan, D. (2015), "Nitrogen doped reduced graphene oxide based Pt- |
| 26 | Sambandam, S., Valluri, V., Chanmanee, W., De Tacconi, N.R., Wampler, W.A., Lin, W., Carlson, T.F., Ramani, V. and Rajeswar, K. (2009), "Pt-carbon black-Titanium dioxide nanocomposite electrocatalyst for fuel cell application", J. Chem. Sci., 121(5), 655-664. DOI |
| 27 | Santos, D.S., Goulet, P.J. and Pieczonka, N.P. (2004), "Gold nanoparticle embedded, self-sustained chitosan films as substrates for surface-enhanced Raman scattering", Langmuir, 20(23), 10273-10277. DOI |
| 28 | Huang, H.Z. and Yang X.R. (2003), "Chitosan mediated assembly of gold NP multilayer", Coll. Surf. A, 226(1-3), 77-86. DOI |
| 29 | Gouldsmith, F. and Wilson S. (1963), "Extraction and refining of the Pt metals a complex cycle of smelting, electrocatalytic and chemical operations", Pt Met. Rev., 7(41), 136-143. |
| 30 | Hu, Z., Wang, Y., Shi, D., Tan, H., Li, X., Wang, L., Zhu, W. and Cao, Y. (2010), "Highly-efficiency redemitting Pt (II) complexes containing 4′-diarylamino-1-phenylisoquinoline ligands in polymer lightemitting diodes, synthesis, structure, photoelectron and electroluminescence", Dyes Pigm., 86(2), 166-173. DOI |
| 31 | Kim, Y.J., Kim, D., Lee, Y., Choi, S.Y., Park, J., Lee, S.Y., Park, J.W. and Kwon, H.J. (2008), "Effect of nanoparticulate saponin-Pt conjugates on 2,4-dinitrofluorobenzene-induced macrophage inflammatory protein-2 gene expression via reactive oxygen species production in RAW 264.7 cells", BMB Rep., 304-309. |
| 32 | Kang, X., Mai, Z., Zou, X., Cai, P. and Mo, J. (2008), "Glucose biosensors based on Pt NP-deposited carbon nanotubes in sol-gel chitosan/silica hybrid", Talanta, 74(4), 879-886. DOI |
| 33 | Kempegowda, R., Antony, D. and Malingappa, P. (2014), "Graphite-Pt nanocomposite as a sensitive and selective voltammetric sensor for trace level arsenic quantification", J. Smart Nano Mater., 5(1), 17-32. DOI |
| 34 | Kim, J., Takahashi, M. and Shimizu, T. (2008), "Effects of a potent antioxidant, Pt nanoparticle, on the lifespan of caenorhabditis elegans", Mech. Age. Dev., 129(6), 322-331. DOI |
| 35 | Tsai, Y., Chen, S. and Lee, C. (2008), "Amperometric cholesterol biosensors based on carbon nanotubechitosan-Pt-cholesterol oxidase nanobiocomposite", Sens. Actuat. B, Chem., 135(1), 96-101. DOI |
| 36 |
Manokaran, J., Muruganatham, R., Muthukrishnaraj, A. and Balasubramanian, N. (2015), "Pt- |
| 37 | Narayanamoorthy, B., Pavan Kumar, B.V.V.S., Eswaramoorthy, M. and Balaji, S. (2014), "Oxygen reduction reaction catalyzed by Pt nanonetwork prepared by template free one step synthesis for polymer electrolyte membrane fuel cells", Mater. Res. Bullet., 55, 137-145. DOI |
| 38 | Narayanan, R. and El-Sayed, M.A. (2004), "Shape-dependent catalytic activity of Pt NP in colloidal solution", Nano Lett., 4(7), 1343-1348. DOI |
| 39 | Tajabadi, M.T., Sookhakian, M., Zalnezhad, E., Yoon, G.H., Hamouda, A.M.S., Azarang, M., Basirun, W.J. and Alias, Y. (2016), "Electrodeposition of flower-like Pt on electrophoretically grown nitrogen-doped graphene as a highly sensitive electrochemical non-enzymatic biosensor for hydrogen peroxide detection", Appl. Surf. Sci., 386, 418-426. DOI |
| 40 | Trasatti, S. (1972), "Work function, electronegativity, and electrochemical behaviour of metals: III. Electrolytic hydrogen evolution in acid solutions", J. Electr. Chem. Interf. Electrochem., 39(1) 163-184. DOI |
| 41 | Vestberg, R., Westlund, R., Eriksson, A., Lopes, C., Carlsson, M., Eliasson, B., Glimsdal, E., Lindgren, M. and Malmstrom, E. (2006), "Dendron decorated Pt(II) acetylides for optical power limiting", Macromol., 39, 2238-2246. DOI |
| 42 | Wang, L.Q., Bellini, M., Filippi, J., Folliero, M., Lavacchi, A., Innocenti, M., Marchionni, A., Miller, H.A. and Vizza, F. (2016), "Energy efficiency of Pt-free alkaline direct formate fuel cells", Appl. Energy, 175, 479-487. DOI |
| 43 | Wang, M.Y., Chen, J.H., Fan, Z., Tang, H., Deng, G.H. and He, D.L. (2004), "Ethanol electro-oxidation with Pt and Pt-Ru catalysts supported on carbon nanotubes", Carbon, 42, 3257-3260. DOI |
| 44 | Yeh, M., Chang, S., Lin, L., Chou, H., Vittal, R., Hwang, B. and Ho, K. (2015), "Size effects of Pt NP on the electrocatalytic ability of the counter electrode in dye-sensitized solar cells", Nano Energy, 17, 241-253. DOI |
| 45 | Iijima, Y. and Sakaue, H. (2012), "Pt porphyrin and luminescent polymer for two-color pressure- and temperature-sensing probes", Sens. Actuat. A, Phys., 184, 128-133. DOI |
| 46 | Huang, Y., Zhao, T., Lin, Z., Peng, T. and Xu, J. (2016), "A facile approach for preparation of highly dispersed Pt-copper/carbon nanocatalyst toward formic acid electro-oxidation", Electrochim. Acta, 190, 956-963. DOI |
| 47 | Hui, M., Zhan, Y., Zeng, D., Zhang, X., Zhang, G. and Jaouen, F. (2015), "Factors influencing the growth of Pt nanowires via chemical self-assembly and their fuel cell performance", Small, 11(27), 3377-3386. DOI |
| 48 | Hummers, W.S. and Offman, R. (1958), "Preparation of graphitic oxide", J. Am. Chem. Soc., 80, 1339-1342. DOI |
| 49 | Jian, F., Zhou, R., Yao, Z., Du, Y., Xu, J., Yang. P. and Wang, C. (2011), "Facile fabrication of Pt-Cu nanoclusters-decorated porous poly(5-cyanoindole) with high electrocatalytic activity", J. Electrochem. Sci., 6, 4114-4126. |
| 50 | Kaewsai, D., Lin, H., Liu, Y. and Yu, T.L. (2016), "Pt on pyridine-polybenzimidazole wrapped carbon nanotube supports for high temperature proton exchange membrane fuel cells", J. Hydrog. Energy, 41(24), 10430-10445. DOI |
| 51 | Lee, J., Kim, H., Sim, T. and Song, R. (2013), "A new quantum dot-Pt conjugate for self-assembled nanoconjugates by coordination bonding mediated recognition", Chem. Commun., 49, 6182-6184. DOI |
| 52 | Kou, R., Shao, Y., Mei, D., Nie, Z., Wang, D., Wang, C., Viswanathan, V.V., Park, S., Aksay, I.A., Lin, Y., Wong, Y. and Liu, J. (2011), "Stabilization of electrocatalytic metal NP at metal-metal oxide-fraphite triple junction points", J. Am. Chem. Soc., 133, 2541-2547. DOI |
| 53 | Krebs, R.E. (1998), Pt-The History and Use of our Earth's Chemical Elements, Greenwood Press, 124-127. |
| 54 | Lalande, G., Denis, M.C., Gouerec, P., Guay, D., Dodelet, J.P. and Schuls, R. (2000), "Pt based nanocomposites produced by high enrgy ball milling as electrocatalysts in polymer electrolyte fuel cell", J. New Mater. Electrochem. Syst., 3, 185-192. |
| 55 | Olujinmi, M.F., Sadiku, E.R. and Maity, A. (2011), "Preparation and characterization of poly(Nvinylcarbazole)/ Pt nanocomposite via in situ solid state polymerization", Can. J. Pure Appl. Sci., 5(3), 1713-1719. |
| 56 | Liao, C., Chen, C., Chang, C., Hwang, G., Chou, H. and Cheng, C. (2013), "Synthesis of conjugated polymers bearing indacenodithiophene and cyclometalated Pt(II) units and their application in organic photovoltaics", Sol. Energy Mater. Sol. Cells, 109, 111-119. DOI |
| 57 | Lin, C.L. and Wang, C.C. (2014), "Enhancement of electroactivity of Pt-tungsten trioxide nanocomposites with NaOH-treated carbon support toward methanol oxidation reaction", Energy Proc., 61, 538-541. DOI |
| 58 | Lin., Y., Cui, X., Wang, J., Yen, C.H. and Wai, C.M. (2006), "Pt and Pt-Ru/carbon nanotube nanocomposite synthesized in super critical fluid as electrocatalyst for low temperature fuel cells", NSTI Nanotech, 1, 524-527. |
| 59 | Oberoi, H.S., Nukolova, N.V., Kabanov, A.V. and Bronich, T.K. (2013), "Nanocarriers for delivery of Pt anticancer drugs", Adv. Drug Deliv. Rev., 65(13-14), 1667-1685. DOI |
| 60 | Oh, J., Park, J., Kumbhar, A., Smith, D.J. and Creager, S. (2014), "Electrochemical oxygen reduction at Pt/mesoporous carbon/zirconia/ionomer thin-film composite electrodes", Electrochim. Acta, 138, 278-287. DOI |
| 61 | Ou, C.F., Yuan, R., Chai, Y., Tang, M., Chai, R. and He, X. (2007), "A novel amperometric immunosensor based on layer-by-layer assembly of gold NP-multi-walled carbon nanotubes-thionine multilayer films on polyelectrolyte surface", Anal. Chim. Acta, 603(2), 205-213. DOI |
| 62 | Pasha, S.S., Das, P., Rath, N.P., Bandyopadhyay, D., Jana, N.R. and Laskar, I.R. (2016), "Water soluble luminescent cyclometalated Pt(II) complex-a suitable probe for bio-imaging applications", Inorg. Chem. Commun., 67, 107-111. DOI |
| 63 | Liu, Y., Wang, D.W., Xu, L., Hou, H.Q. and You, T.Y. (2011), "A novel and simple route to prepare a Pt nanoparticle-loaded carbon nanofiber electrode for hydrogen peroxide sensing", Biosens. Bioelectron., 26(11), 4585-4590. DOI |
| 64 | Yonezawa, T. and Toshima, N. (1993), "Polymer- and micelle-protected gold/Pt bimetallic systems. Preparation, application to catalysis for visible-light-induced hydrogen evolution, and analysis of formation process with optical methods", J. Molecul. Catalys., 83(1-2), 167-181. DOI |
| 65 | Li, F.H., Chai, J., Yang, H.F., Han, D.X. and Niu, L. (2010), "Synthesis of Pt/ionic liquid/graphene nanocomposite and its simultaneous determination of ascorbic acid and dopamine", Talanta, 81, 1063-1068. DOI |
| 66 | Li, L., Chow, W., Wong, W., Chui, C. and Wong, R.S. (2011), "Synthesis, characterization and photovoltaic behavior of Pt acetylide polymers with electron-deficient 9, 10-anthraquinone moiety", J. Organometal. Chem., 696(6), 1189-1197. DOI |
| 67 | Li, M., Wu, X., Zeng, J., Hou, Z. and Liao, S. (2015), "Heteroatom doped carbon nanofibers synthesized by chemical vapor deposition as Pt electrocatalyst supports for polymer electrolyte membrane fuel cells", Electrochim. Acta, 182, 351-360. DOI |
| 68 | Li, Y., Zhang, J.J., Xuan, J., Jiang, L.P. and Zhu, J.J. (2010), "Fabrication of a novel nonenzymatic hydrogen peroxide sensor based on Se/Pt nanocomposite", Electrochem. Commun., 12(6),777-780. DOI |
| 69 | Liu, Q., Zhu, N., Ho, C., Fu, Y., Lau, W., Xie, Z., Wang, L. and Wong, W. (2016), "Synthesis, characterization, photophysical and photovoltaic properties of new donor-acceptor Pt (II) acetylide complexes", J. Organometal. Chem., 812, 2-12. DOI |
| 70 | Liu, S.H., Chang, C.C., Wu, M.T. and Liu, S.B. (2010), "Electrochemical activity and durability of Pt NP supported on ordered mesoporous carbons for oxygen reduction reaction", J. Hydrog. Energy, 35, 8149-8154. DOI |
| 71 | Lu, Y., Yang, M., Qu, F., Shen, G. and Yu, R. (2008), "Seed-mediated growth of Pt NP on carbon nanotubes for the fabrication of electrochemical biosensors", Electrochim. Acta, 53(10), 3559-3565. DOI |
| 72 | Maiyalagan, T., Wang, X. and Manthiram, A. (2014), "Highly active Pd and Pd-Au NP supported on functionalized graphene nanoplatelets for enhanced formic acid oxidation", RCS Adv., 4, 4028-4033. |
| 73 | Stegmeier, S., Fleischer, M. and Hauptmann, P. (2010b), "Thermally activated Pt as VOC sensing material for work function type, gas sensors", Sens. Actuat. B, Chem., 144(2), 418-424. DOI |
| 74 | Sarikaya, M., Tamerler, C., Jen, A.K.Y., Schulten, K. and Banyex, F. (2003), "Molecular biomimetics, nanotechnology through biotechnology", Nat. Mater., 2, 577-585. DOI |
| 75 | Seifitokaldani, A. and Savadogo, O. (2015), "Electrochemically stable titanium oxy-nitride support for Pt electro-catalyst for PEM fuel cell applications", Electrochim. Acta, 167, 237-245. DOI |
| 76 | Siriviriyanun, A., Imae, T. and Nagatani, N. (2013), "Electrochemical biosensors for biocontaminant detection consisting of carbon nanotubes, Pt NP, dendrimers and enzymes", Analyt. Biochem., 443(2), 169-171. DOI |
| 77 | Sripada, R., Nirmal, R.G., Mathiyarasu, J., Berchmans, S., Phani, K.L.N. and Yegnaraman, V. (2007), "Ptdendrimer nanocomposite films on gold surface for electrocatalysis", Catal. Lett., 119, 40-49. DOI |
| 78 | Sripada, R., Parambath, M.B., Santhosh, P., Nair, N. and Ramaprabhu, S. (2015), "Pt and Pt-iron alloy NP dispersed nitrogen-doped graphene as high performance room temperature hydrogen sensor", J. Hydrog. Energy, 40(32), 10346 -10353. DOI |
| 79 |
Stegmeier, S., Fleischer, M. and Hauptmann, P. (2010a), "Influence of the morphology of Pt combined with |
| 80 | Sui, S., Zhuo, X., Su, K. Yao, X., Zhang, J., Du, S. and Kendall, K. (2013), "In situ grown nanoscale Pt on carbon powder as catalyst layer in proton exchange membrane fuel cells (PEMFCs)", J. Energy Chem., 22(3), 477-483. DOI |
| 81 | Zhan, H., Wong, W., Ng, A., Djurisic, A.B. and Chan, W. (2011), "Synthesis, characterization and photovoltaic properties of Pt-containing poly(aryleneethynylene) polymers with phenanthrenyl-imidazole moiety", J. Organometal. Chem., 696(25), 4112-4120. DOI |
| 82 | Puthusseri, D. and Ramaprabhu, S. (2016), "Oxygen reduction reaction activity of Pt NP decorated nitrogen doped carbon in proton exchange membrane fuel cell under real operating conditions", J. Hydrog. Energy, 41(30), 13163-13170. DOI |
| 83 | Quaino, P., Fernanda, J., Santos, E. and Wolfgang, S. (2014), "Volcano plots in hydrogen electrocatalysisuses and abuses", Beilst. J. Nanotechnol., 5, 846-854. DOI |
| 84 |
Yu, C., Bai, Y., He, H., Fan, W., Zhu, L. and Zhou, W. (2015), "Characterization and photocatalytic performance of rod-shaped |
| 85 | Yung, T., Liu, T., Huang, L.Y., Wang, K.S., Tzou, H.M., Chen, P.T., Chao C.Y. and Liu, L.K. (2015), "Characterization of Au and bimetallic PtAu NP on PDDA-graphene sheets as electrocatalysts for formic acid oxidation", Nanos. Res. Lett., 10, 365. DOI |
| 86 | Zeki, B.S., Gulce, S. and Yildiz, S. (2011), "Amperometric xanthine biosensors based on electrodeposition of Pt on polyvinylferrocenium coated Pt electrode", J. Molecul. Catalys. B, Enzymat., 72(3-4), 282-288. DOI |
| 87 | Zhang, S., Shao, Y., Liao, H., Liu, J., Aksay, I.A., Yin, G. and Lin, Y. (2011), "Graphene decorated with PtAu alloy NP, facile synthesis and promising application for Formic acid oxidation", Chem. Mater., 23, 1079-1081. DOI |
| 88 | Zhou, Z.H., Wang, S., Zhou, W.J., Wang, G.X., Jiang, L.H., Li, W.Z., Song, S.Q., Liu, J.G., Sun, G.Q. and Xin, Q. (2003), "Novel synthesis of highly active Pt/C cathode electrocatalyst for direct methanol fuel cell", Chem. Commun., 3, 394-395. |
| 89 |
Zhou, Y., Itoh, H., Umemura, T., Naka, K. and Chujo, Y. (2002), "Synthesis of novel stable nanometersized metal (M Pd, Au, Pt) colloids protected by a |
| 90 | Zhou, Q., Zhong, K., Fu, W., Huang, Q., Wang, Z. and Bei, N. (2015), "Nanostructured Pt catalyst coating on diesel particulate filter with a low-cost electroless deposition approach", Chem. Eng. J., 270, 320-326. DOI |
| 91 | Zhu, X. and Ding, A. (2013), "One step construction of sensor based on nanocomposite of Pt and chitosan formed by electrodeposition and its application for determination of nitrite", J. Electrochem. Sci., 8, 135-148. |
| 92 | Zidki, T., Bar-Ziv, R., Green, U., Cohen, H., Meisel, D. and Meyerstein, D. (2014), "The effect of nanosilica support on the catalytic reduction of water by gold, silver and Pt NP-nanocomposite reactivity", Phys. Chem. Chem. Phys., 16, 15422-15429. DOI |
| 93 | Awasthi, R.N. and Sharma, C.S. (2014), "Review, an overview of recent development of Pt based cathode materials for direct methanol fuel cell", J. Electrochem. Sci., 9, 5607-5639. |
| 94 | Zhang, F., Wang, Z., Zhang, Y., Zheng, Z., Wang, C., Du, Y. and Ye, W. (2012), "Microwave assisted synthesis of Pt/graphene nanocomposites", J. Electrochem. Sci., 7, 1968-1977. |
| 95 | Zhang, N., Zhang, S., Du, C., Wang, Z., Shao, Y., Kong, F., Lin, Y. and Yin, G. (2014), "Pt/tin oxide/carbon nanocomposites as promising oxygen reduction electrocatalyst with improved stability and activity", Electroim. Acta, 117, 413-419. DOI |
| 96 |
Zheng, Y., Dou, Z., Fang, Y., Li, M., Wu, X., Zeng, J., Hou, Z. and Liao, S. (2016), "Pt NP on carbonnanotube support prepared by room-temperature reduction with |
| 97 | Arenz, M., Karl, J., Mayrhofer, K.J.J., Stamenkovic, V., Blizanac, B.B., Tomoyuki, T., Ross, P.N. and Markovic, N.M. (2005), "The effect of the particle size on the kinetics of CO electrooxidation on high surface area Pt catalysts", J. Am. Chem. Soc., 127(18), 6819-6829. DOI |
| 98 | Avaji, P.G., Joo, H.I., Park, J.H., Park, K.S., Joo, Y.J., Lee, H.J. and Sohn, Y.S. (2014), "Synthesis and properties of a new micellar polyphosphazene-Pt(II) conjugate drug", J. Inorg. Biochem., 140, 45-52. DOI |
| 99 | Bian, X.J., Lu, X.F., Jin, E., Kong, L.R., Zhang, W.J. and Wang, C. (2010), "Fabrication of Pt/polypyrrole hybrid hollow microspheres and their application in electrochemical biosensing towards hydrogen peroxide", Talanta, 81(3), 813-818. DOI |
| 100 | Bar-Ziv, R., Michael, S., Vladimir, S. and Dan, M. (2015), "Coating Pt NP with methyl radicals: Effects on properties and catalytic implications", Chem. Eur. J., 21(52), 19000. DOI |
| 101 | Bo, X., Ndamanisha, J.C., Bai, J. and Guo, L.P. (2010), "Nonenzymatic amperometric sensor for hydrogen peroxide and glucose based on Pt NP ordered mesoporous carbon nanocomposite", Talanta, 82(1), 85-91. DOI |
| 102 | Bonnemann, H. and Richards, R.M. (2010), "Nanoscopic metal particles-synthetic methods and potential applications", Eur. J. Inorg. Chem., 2001(10), 2455-2480. DOI |
| 103 | Boryana, B., Sanchez, A., Jimenez-Falcao, S., Martin, M., Salazar, P., Parrado, C., Pingarrón, J.M. and Villalonga, R. (2016), "Reduced graphene oxide-carboxymethylcellulose layered with Pt NP/PAMAM dendrimer/magnetic NP hybrids. Application to the preparation of enzyme electrochemical biosensors", Sensor. Actuat. B, Chem., 232, 84-90. DOI |
| 104 | Chauhan, K.R., Solanki, P.R. and Basu, T. (2013), "Development of impedimetric biosensor for total cholesterol estimation based on polypyrrole and Pt NP multi later nanocomposite", J. Org. Chem., 3(4), 262-274. |
| 105 | Chen, X., Wu, Y., Dong, H., Zhang, C.Y. and Zhang, Y. (2013), "Pt-based agents for, individualized cancer treatment", Curr. Mol. Med., 13(10), 1603-1612. DOI |
| 106 | Dey, R.S. and Raj, C.R. (2010), "Development of an amperometric cholesterol biosensor based on grapheme-Pt nanoparticle hybrid material", J. Phys. Chem. C, 114(49), 21427-21433. DOI |
 |
Korea Institute of Science and Technology Information
Gwahangno, Yuseong-gu, Daejeon, 305-806, Korea TEL : +82-42-869-1752
Copyright (c) 2009 KISTI. All Rights Reserved. For more information mail to
webmaster
