-
1
-
-
77950551360
-
Technology development for the production of biobased products from biorefinery carbohydratesdthe US Department of Energy's "Top 10" revisited
-
Bozell JJ, Petersen GR. Technology development for the production of biobased products from biorefinery carbohydratesdthe US Department of Energy's "Top 10" revisited. Green Chem 2010;12:539-54.
-
(2010)
Green Chem
, vol.12
, pp. 539-554
-
-
Bozell, J.J.1
Petersen, G.R.2
-
2
-
-
34948896114
-
Liquid-phase catalytic processing of biomass-derived oxygenated hydrocarbons to fuels and chemicals
-
Chheda JN, Huber GW, Dumesic JA. Liquid-phase catalytic processing of biomass-derived oxygenated hydrocarbons to fuels and chemicals. Angew Chem Int Ed 2007;46:7164-83.
-
(2007)
Angew Chem Int Ed
, vol.46
, pp. 7164-7183
-
-
Chheda, J.N.1
Huber, G.W.2
Dumesic, J.A.3
-
3
-
-
34447129755
-
Chemical routes for the transformation of biomass into chemicals
-
Corma A, Iborra S, Velty A. Chemical routes for the transformation of biomass into chemicals. Chem Rev 2007;107:2411-502.
-
(2007)
Chem Rev
, vol.107
, pp. 2411-2502
-
-
Corma, A.1
Iborra, S.2
Velty, A.3
-
4
-
-
84856704753
-
Conversion of biomass to selected chemical products
-
Gallezot P. Conversion of biomass to selected chemical products. Chem Soc Rev 2012;41:1538-58.
-
(2012)
Chem Soc Rev
, vol.41
, pp. 1538-1558
-
-
Gallezot, P.1
-
5
-
-
65349130645
-
From renewable to fine chemicals through selective oxidation: The case of glycerol
-
Prati L, Spontoni P, Gaiassi A. From renewable to fine chemicals through selective oxidation: The case of glycerol. Top Catal 2009;52:288-96.
-
(2009)
Top Catal
, vol.52
, pp. 288-296
-
-
Prati, L.1
Spontoni, P.2
Gaiassi, A.3
-
6
-
-
80051586580
-
Selective catalytic oxidation of glycerol: Perspectives for high value chemicals
-
Katryniok B, Kimura H, Skrzynska E, Girardon JS, Fongarland P, Capron M, et al. Selective catalytic oxidation of glycerol: perspectives for high value chemicals. Green Chem 2011;13:1960-79.
-
(2011)
Green Chem
, vol.13
, pp. 1960-1979
-
-
Katryniok, B.1
Kimura, H.2
Skrzynska, E.3
Girardon, J.S.4
Fongarland, P.5
Capron, M.6
-
7
-
-
84871770231
-
Influence of reaction conditions on diacid formation during Au-catalyzed oxidation of glycerol and hydroxymethylfurfural
-
Zope BN, Davis SE, Davis RJ. Influence of reaction conditions on diacid formation during Au-catalyzed oxidation of glycerol and hydroxymethylfurfural. Top Catal 2012;55:24-32.
-
(2012)
Top Catal
, vol.55
, pp. 24-32
-
-
Zope, B.N.1
Davis, S.E.2
Davis, R.J.3
-
8
-
-
38549149213
-
Chemoselective catalytic conversion of glycerol as a biorenewable source to valuable commodity chemicals
-
Zhou CH, Beltramini JN, Fana YX, Lu GQ. Chemoselective catalytic conversion of glycerol as a biorenewable source to valuable commodity chemicals. Chem Soc Rev 2008;37:527-49.
-
(2008)
Chem Soc Rev
, vol.37
, pp. 527-549
-
-
Zhou, C.H.1
Beltramini, J.N.2
Fana, Y.X.3
Lu, G.Q.4
-
9
-
-
2342513324
-
Selective oxidation of glycerol to sodium glycerate with gold-on-carbon catalyst: An insight into reaction selectivity
-
Porta F, Prati L. Selective oxidation of glycerol to sodium glycerate with gold-on-carbon catalyst: An insight into reaction selectivity. J Catal 2004;224:397-403.
-
(2004)
J Catal
, vol.224
, pp. 397-403
-
-
Porta, F.1
Prati, L.2
-
10
-
-
34250753237
-
From glycerol to value-added products
-
Pagliaro M, Ciriminna R, Kimura H, Rossi M, Della Pina C. From glycerol to value-added products. Angew Chem Int Ed 2007;46:4434-40.
-
(2007)
Angew Chem Int Ed
, vol.46
, pp. 4434-4440
-
-
Pagliaro, M.1
Ciriminna, R.2
Kimura, H.3
Rossi, M.4
Della Pina, C.5
-
11
-
-
34447638327
-
Influence of gold particle size on the aqueous-phase oxidation of carbon monoxide and glycerol
-
Ketchie WC, Fang YL, Wong MS, Murayama M, Davis RJ. Influence of gold particle size on the aqueous-phase oxidation of carbon monoxide and glycerol. J Catal 2007;250:94-101.
-
(2007)
J Catal
, vol.250
, pp. 94-101
-
-
Ketchie, W.C.1
Fang, Y.L.2
Wong, M.S.3
Murayama, M.4
Davis, R.J.5
-
12
-
-
34249995802
-
Promotional effect of hydroxyl on the aqueous phase oxidation of carbon monoxide and glycerol over supported Au catalysts
-
Ketchie WC, Murayama M, Davis RJ. Promotional effect of hydroxyl on the aqueous phase oxidation of carbon monoxide and glycerol over supported Au catalysts. Top Catal 2007;44:307-17.
-
(2007)
Top Catal
, vol.44
, pp. 307-317
-
-
Ketchie, W.C.1
Murayama, M.2
Davis, R.J.3
-
13
-
-
70450250248
-
Liquid phase oxidation of glycerol using a single phase (AuePd) Alloy supported on activated carbon: Effect of reaction conditions
-
Dimitratos N, Villa A, Prati L. Liquid phase oxidation of glycerol using a single phase (AuePd) Alloy supported on activated carbon: effect of reaction conditions. Catal Lett 2009;133:334-40.
-
(2009)
Catal Lett
, vol.133
, pp. 334-340
-
-
Dimitratos, N.1
Villa, A.2
Prati, L.3
-
15
-
-
0037443285
-
Oxidation of glycerol using supported Pt, Pd and Au catalysts
-
Carrettin S, McMorn P, Johnston P, Griffin K, Kiely CJ, Hutchings GJ. Oxidation of glycerol using supported Pt, Pd and Au catalysts. Phys Chem Chem Phys 2003;5:1329-36.
-
(2003)
Phys Chem Chem Phys
, vol.5
, pp. 1329-1336
-
-
Carrettin, S.1
McMorn, P.2
Johnston, P.3
Griffin, K.4
Kiely, C.J.5
Hutchings, G.J.6
-
16
-
-
3543055261
-
Oxidation of glycerol using supported gold catalysts
-
Carrettin S, McMorn P, Johnston P, Griffin K, Kiely CJ, Attard GA, et al. Oxidation of glycerol using supported gold catalysts. Top Catal 2004;27:131-6.
-
(2004)
Top Catal
, vol.27
, pp. 131-136
-
-
Carrettin, S.1
McMorn, P.2
Johnston, P.3
Griffin, K.4
Kiely, C.J.5
Attard, G.A.6
-
17
-
-
0037035287
-
Selective oxidation of glycerol to glyceric acid using a gold catalyst in aqueous sodium hydroxide
-
Carrettin S, McMorn P, Johnston P, Griffin K, Hutchings GJ. Selective oxidation of glycerol to glyceric acid using a gold catalyst in aqueous sodium hydroxide. Chem Commun 2002:696-7.
-
(2002)
Chem Commun
, pp. 696-697
-
-
Carrettin, S.1
McMorn, P.2
Johnston, P.3
Griffin, K.4
Hutchings, G.J.5
-
18
-
-
80054047205
-
Selective oxidation of glycerol by highly active bimetallic catalysts at ambient temperature under base-free conditions
-
Brett GL, He Q, Hammond C, Miedziak PJ, Dimitratos N, Sankar M, et al. Selective oxidation of glycerol by highly active bimetallic catalysts at ambient temperature under base-free conditions. Angew Chem Int Ed 2011;50:10136-9.
-
(2011)
Angew Chem Int Ed
, vol.50
, pp. 10136-10139
-
-
Brett, G.L.1
He, Q.2
Hammond, C.3
Miedziak, P.J.4
Dimitratos, N.5
Sankar, M.6
-
19
-
-
18844456254
-
Selective oxidation of glycerol with oxygen using mono and bimetallic catalysts based on Au, Pd and Pt metals
-
Bianchi CL, Canton P, Dimitratos N, Porta F, Prati L. Selective oxidation of glycerol with oxygen using mono and bimetallic catalysts based on Au, Pd and Pt metals. Catal Today 2005;102-103:203-12.
-
(2005)
Catal Today
, vol.102-103
, pp. 203-212
-
-
Bianchi, C.L.1
Canton, P.2
Dimitratos, N.3
Porta, F.4
Prati, L.5
-
20
-
-
84863723225
-
Bismuth as a modifier of AuePd catalyst: Enhancing selectivity in alcohol oxidation by suppressing parallel reaction
-
Villa A, Wang D, Veith GM, Prati L. Bismuth as a modifier of AuePd catalyst: enhancing selectivity in alcohol oxidation by suppressing parallel reaction. J Catal 2012;292:73-80.
-
(2012)
J Catal
, vol.292
, pp. 73-80
-
-
Villa, A.1
Wang, D.2
Veith, G.M.3
Prati, L.4
-
21
-
-
70349096793
-
Palladium-based electrocatalysts for alcohol oxidation in half cells and in direct alcohol fuel cells
-
Bianchini C, Shen PK. Palladium-based electrocatalysts for alcohol oxidation in half cells and in direct alcohol fuel cells. Chem Rev 2009;109:4183-206.
-
(2009)
Chem Rev
, vol.109
, pp. 4183-4206
-
-
Bianchini, C.1
Shen, P.K.2
-
22
-
-
65049084681
-
Pd and PteRu anode electrocatalysts supported on multi-walled carbon nanotubes and their use in passive and active direct alcohol fuel cells with an anion-exchange membrane (alcohol 1/4 methanol, ethanol, glycerol)
-
Bambagioni V, Bianchini C, Marchionni A, Filippi J, Vizza F, Teddy J, et al. Pd and PteRu anode electrocatalysts supported on multi-walled carbon nanotubes and their use in passive and active direct alcohol fuel cells with an anion-exchange membrane (alcohol 1/4 methanol, ethanol, glycerol). J Power Sources 2009;190:241-51.
-
(2009)
J Power Sources
, vol.190
, pp. 241-251
-
-
Bambagioni, V.1
Bianchini, C.2
Marchionni, A.3
Filippi, J.4
Vizza, F.5
Teddy, J.6
-
24
-
-
84861101769
-
Supported gold nanoparticles as anode catalyst for anion-exchange membrane-direct glycerol fuel cell (AEM-DGFC)
-
Zhang Z, Xin L, Li W. Supported gold nanoparticles as anode catalyst for anion-exchange membrane-direct glycerol fuel cell (AEM-DGFC). Int J Hydrogen Energy 2012;37:9393-401.
-
(2012)
Int J Hydrogen Energy
, vol.37
, pp. 9393-9401
-
-
Zhang, Z.1
Xin, L.2
Li, W.3
-
25
-
-
84864352047
-
Simultaneous generation of mesoxalic acid and electricity from glycerol on a gold anode catalyst in anion-exchange membrane fuel cells
-
Xin L, Zhang Z, Wang Z, Li W. Simultaneous generation of mesoxalic acid and electricity from glycerol on a gold anode catalyst in anion-exchange membrane fuel cells. ChemCatChem 2012:1105-14.
-
(2012)
ChemCatChem
, pp. 1105-1114
-
-
Xin, L.1
Zhang, Z.2
Wang, Z.3
Li, W.4
-
26
-
-
84857779364
-
Electrocatalytic oxidation of glycerol on Pt/C in anion-exchange membrane fuel cell: Cogeneration of electricity and valuable chemicals
-
Zhang Z, Xin L, Li W. Electrocatalytic oxidation of glycerol on Pt/C in anion-exchange membrane fuel cell: cogeneration of electricity and valuable chemicals. Appl Catal B. 2012;119-120:40-8.
-
(2012)
Appl Catal B
, vol.119-120
, pp. 40-48
-
-
Zhang, Z.1
Xin, L.2
Li, W.3
-
27
-
-
84874379674
-
Supported Pt, Pd and Au nanoparticle anode catalysts for anion-exchange membrane fuel cells with glycerol and crude glycerol fuels
-
Zhang Z, Xin L, Qi J, Chadderdon DJ, Li W. Supported Pt, Pd and Au nanoparticle anode catalysts for anion-exchange membrane fuel cells with glycerol and crude glycerol fuels. Appl Catal B. 2013;136-137:29-39.
-
(2013)
Appl Catal B
, vol.136-137
, pp. 29-39
-
-
Zhang, Z.1
Xin, L.2
Qi, J.3
Chadderdon, D.J.4
Li, W.5
-
28
-
-
84874673599
-
Electrooxidation of ethylene glycol and glycerol on Pde(NieZn)/C anodes in direct alcohol fuel cells
-
Marchionni A, Bevilacqua M, Bianchini C, Chen YX, Filippi J, Fornasiero P, et al. Electrooxidation of ethylene glycol and glycerol on Pde(NieZn)/C anodes in direct alcohol fuel cells. Chem Sus Chem 2013;6:518-28.
-
(2013)
Chem Sus Chem
, vol.6
, pp. 518-528
-
-
Marchionni, A.1
Bevilacqua, M.2
Bianchini, C.3
Chen, Y.X.4
Filippi, J.5
Fornasiero, P.6
-
29
-
-
84887199737
-
Selective electro-oxidation of glycerol to tartronate or mesoxalate on Au nanoparticle catalyst via electrode potential tuning in anion-exchange membrane electrocatalytic flow reactor
-
Zhang Z, Xin L, Qi J, Chadderdon DJ, Sun K, Warsko KM, et al. Selective electro-oxidation of glycerol to tartronate or mesoxalate on Au nanoparticle catalyst via electrode potential tuning in anion-exchange membrane electrocatalytic flow reactor. Appl Catal B. 2014;147:871-8.
-
(2014)
Appl Catal B
, vol.147
, pp. 871-878
-
-
Zhang, Z.1
Xin, L.2
Qi, J.3
Chadderdon, D.J.4
Sun, K.5
Warsko, K.M.6
-
30
-
-
84896116863
-
Electrocatalytic selective oxidation of glycerol to tartronate on Au/C anode catalysts in anion exchangemembrane fuel cells with electricity cogeneration
-
Qi J, Xin L, Chadderdon DJ, Qiu Y, Jiang Y, Benipal N, et al. Electrocatalytic selective oxidation of glycerol to tartronate on Au/C anode catalysts in anion exchangemembrane fuel cells with electricity cogeneration. Appl Catal B 2014;154-155:360-8.
-
(2014)
Appl Catal B
, vol.154-155
, pp. 360-368
-
-
Qi, J.1
Xin, L.2
Chadderdon, D.J.3
Qiu, Y.4
Jiang, Y.5
Benipal, N.6
-
31
-
-
77954984387
-
Integrated theoretical and experimental studies of fuel cell electrocatalysts
-
Zawodzinski T, Wieckowski A, Mukerjee S, Neurock M. Integrated theoretical and experimental studies of fuel cell electrocatalysts. Electrochem Soc Interface 2007;16(2):37-41.
-
(2007)
Electrochem Soc Interface
, vol.16
, Issue.2
, pp. 37-41
-
-
Zawodzinski, T.1
Wieckowski, A.2
Mukerjee, S.3
Neurock, M.4
-
32
-
-
0026204251
-
Mathematical model of a gas diffusion electrode bonded to a polymer electrolyte
-
Bernardi DM, Verbrugge MW. Mathematical model of a gas diffusion electrode bonded to a polymer electrolyte. AIChE J 1991;37:1151-63.
-
(1991)
AIChE J
, vol.37
, pp. 1151-1163
-
-
Bernardi, D.M.1
Verbrugge, M.W.2
-
33
-
-
0035702635
-
Mathematical modeling of proton exchange membrane fuel cells
-
Rowe A, Li X. Mathematical modeling of proton exchange membrane fuel cells. J Power Sources 2001;102:82-96.
-
(2001)
J Power Sources
, vol.102
, pp. 82-96
-
-
Rowe, A.1
Li, X.2
-
34
-
-
0036534851
-
Three-dimensional computational analysis of transport phenomena in a PEM fuel cell
-
Berning T, Lu DM, Djilali N. Three-dimensional computational analysis of transport phenomena in a PEM fuel cell. J Power Sources 2002;106:284-94.
-
(2002)
J Power Sources
, vol.106
, pp. 284-294
-
-
Berning, T.1
Lu, D.M.2
Djilali, N.3
-
35
-
-
0037879194
-
A general mathematical model for analyzing the performance of fuel-cell membrane-electrode assemblies
-
Zhu H, Kee RJ. A general mathematical model for analyzing the performance of fuel-cell membrane-electrode assemblies. J Power Sources 2003;117:61-74.
-
(2003)
J Power Sources
, vol.117
, pp. 61-74
-
-
Zhu, H.1
Kee, R.J.2
-
36
-
-
7544231743
-
Fundamental models for fuel cell engineering
-
Wang CY. Fundamental models for fuel cell engineering. Chem Rev 2004;104:4727-66.
-
(2004)
Chem Rev
, vol.104
, pp. 4727-4766
-
-
Wang, C.Y.1
-
37
-
-
84864827941
-
Multi-layer membrane model for mass transport in a direct ethanol fuel cell using an alkaline anion exchange membrane
-
Bahrami H, Faghri A. Multi-layer membrane model for mass transport in a direct ethanol fuel cell using an alkaline anion exchange membrane. J Power Sources 2012;218:286-96.
-
(2012)
J Power Sources
, vol.218
, pp. 286-296
-
-
Bahrami, H.1
Faghri, A.2
-
38
-
-
84868193075
-
Water management in alkaline anion exchange membrane fuel cell anode
-
Huo S, Deng H, Chang Y, Jiao K. Water management in alkaline anion exchange membrane fuel cell anode. Int J Hydrogen Energy 2012;37:18389-402.
-
(2012)
Int J Hydrogen Energy
, vol.37
, pp. 18389-18402
-
-
Huo, S.1
Deng, H.2
Chang, Y.3
Jiao, K.4
-
39
-
-
84877725194
-
Transient analysis of alkaline anion exchange membrane fuel cell anode
-
Deng H, Huo S, Chang Y, Zhou Y, Jiao K. Transient analysis of alkaline anion exchange membrane fuel cell anode. Int J Hydrogen Energy 2013;38:6509-25.
-
(2013)
Int J Hydrogen Energy
, vol.38
, pp. 6509-6525
-
-
Deng, H.1
Huo, S.2
Chang, Y.3
Zhou, Y.4
Jiao, K.5
-
40
-
-
84898656679
-
An analytical model for alkaline membrane direct methanol fuel cell
-
Deng H, Chen J, Jiao K, Huang X. An analytical model for alkaline membrane direct methanol fuel cell. Int J Heat Mass Transf 2014;74:376-90.
-
(2014)
Int J Heat Mass Transf
, vol.74
, pp. 376-390
-
-
Deng, H.1
Chen, J.2
Jiao, K.3
Huang, X.4
-
41
-
-
84897435036
-
Three-dimensional multiphase modeling of alkaline anion exchange membrane fuel cell
-
Jiao K, He P, Du Q, Yin Y. Three-dimensional multiphase modeling of alkaline anion exchange membrane fuel cell. Int J Hydrogen Energy 2014;39:5981-95.
-
(2014)
Int J Hydrogen Energy
, vol.39
, pp. 5981-5995
-
-
Jiao, K.1
He, P.2
Du, Q.3
Yin, Y.4
-
42
-
-
84885435185
-
Mathematical modeling of alkaline direct ethanol fuel cells
-
An L, Chai ZH, Zeng L, Tan P, Zhao TS. Mathematical modeling of alkaline direct ethanol fuel cells. Int J Hydrogen Energy 2013;38:14067-75.
-
(2013)
Int J Hydrogen Energy
, vol.38
, pp. 14067-14075
-
-
An, L.1
Chai, Z.H.2
Zeng, L.3
Tan, P.4
Zhao, T.S.5
-
43
-
-
84885349507
-
Mathematical modeling and experimental verification of direct glucose anion exchange membrane fuel cell
-
Pathak R, Basu S. Mathematical modeling and experimental verification of direct glucose anion exchange membrane fuel cell. Electrochim Acta 2013;113:42-53.
-
(2013)
Electrochim Acta
, vol.113
, pp. 42-53
-
-
Pathak, R.1
Basu, S.2
-
44
-
-
84922606716
-
Proton exchange membrane fuel cells 8
-
Fuller T. Proton exchange membrane fuel cells 8. ECS Trans 2008;16:257-62.
-
(2008)
ECS Trans
, vol.16
, pp. 257-262
-
-
Fuller, T.1
-
48
-
-
77957292591
-
Electrochemical impedance spectroscopy
-
Chang BY, Park SM. Electrochemical impedance spectroscopy. Annu Rev Anal Chem 2010:207-29.
-
(2010)
Annu Rev Anal Chem
, pp. 207-229
-
-
Chang, B.Y.1
Park, S.M.2
-
49
-
-
77956056380
-
Equivalent electric circuit modeling and performance analysis of a PEM fuel cell stack using impedance spectroscopy
-
Apartna DM, Dale NV, Salehfar H, Mann MD, Han T-H. Equivalent electric circuit modeling and performance analysis of a PEM fuel cell stack using impedance spectroscopy. IEEE Trans Energy Convers 2010;25:778-86.
-
(2010)
IEEE Trans Energy Convers
, vol.25
, pp. 778-786
-
-
Apartna, D.M.1
Dale, N.V.2
Salehfar, H.3
Mann, M.D.4
Han, T.-H.5
-
50
-
-
0035443932
-
Concerning the conversion of the constant phase element parameter Y0 into a capacitance
-
Hsu CH, Mansfeld F. Concerning the conversion of the constant phase element parameter Y0 into a capacitance. Corrosion 2001;57:747-8.
-
(2001)
Corrosion
, vol.57
, pp. 747-748
-
-
Hsu, C.H.1
Mansfeld, F.2
-
51
-
-
84876937569
-
Surface dealloyed Pt nanoparticles supported on carbon nanotubes: Facile synthesis and promising applications for direct crude glycerol anion-exchange membrane fuel cell
-
Qi J, Xin L, Zhang Z, Sun K, He H, Wang F, et al. Surface dealloyed Pt nanoparticles supported on carbon nanotubes: facile synthesis and promising applications for direct crude glycerol anion-exchange membrane fuel cell. Green Chem 2013;15:1133-7.
-
(2013)
Green Chem
, vol.15
, pp. 1133-1137
-
-
Qi, J.1
Xin, L.2
Zhang, Z.3
Sun, K.4
He, H.5
Wang, F.6
-
52
-
-
58649107362
-
Performance of alkaline electrolytemembrane- based direct ethanol fuel cells
-
Li YS, Zhao TS, Liang ZX. Performance of alkaline electrolytemembrane- based direct ethanol fuel cells. J Power Sources 2009;187:387-92.
-
(2009)
J Power Sources
, vol.187
, pp. 387-392
-
-
Li, Y.S.1
Zhao, T.S.2
Liang, Z.X.3
-
53
-
-
77950340477
-
Performance of a direct ethylene glycol fuel cell with an anion-exchange membrane
-
An L, Zhao TS, Shen SY, Wu QX, Chen R. Performance of a direct ethylene glycol fuel cell with an anion-exchange membrane. Int J Hydrogen Energy 2010;2010:4329-35.
-
(2010)
Int J Hydrogen Energy
, vol.2010
, pp. 4329-4335
-
-
An, L.1
Zhao, T.S.2
Shen, S.Y.3
Wu, Q.X.4
Chen, R.5
-
54
-
-
34447344487
-
Electrocatalysis of oxygen reduction and small alcohol oxidation in alkaline media
-
Spendelow JS, Wieckowski A. Electrocatalysis of oxygen reduction and small alcohol oxidation in alkaline media. Phys Chem Chem Phys 2007;9:2654-75.
-
(2007)
Phys Chem Chem Phys
, vol.9
, pp. 2654-2675
-
-
Spendelow, J.S.1
Wieckowski, A.2
-
56
-
-
0030084123
-
Characterization of polymer electrolyte fuel cells using AC impedance spectroscopy
-
Springer E, Zawodzinski A, Wilson MS, Golfesfeld S. Characterization of polymer electrolyte fuel cells using AC impedance spectroscopy. J Electrochem Soc 1996;143:587-99.
-
(1996)
J Electrochem Soc
, vol.143
, pp. 587-599
-
-
Springer, E.1
Zawodzinski, A.2
Wilson, M.S.3
Golfesfeld, S.4
-
57
-
-
26444433388
-
Analysis of electrochemical impedance spectroscopy in proton exchange membrane fuel cells
-
Gomadam PM, Weidner JW. Analysis of electrochemical impedance spectroscopy in proton exchange membrane fuel cells. Int J Energy Res 2005;29:1133-51.
-
(2005)
Int J Energy Res
, vol.29
, pp. 1133-1151
-
-
Gomadam, P.M.1
Weidner, J.W.2
-
58
-
-
36549023361
-
AC impedance technique in PEM fuel cell diagnosis e a review
-
Yuan X, Wang H, Sun J, Zhang J. AC impedance technique in PEM fuel cell diagnosis e a review. Int J Hydrogen Energy 2007;32:4365-80.
-
(2007)
Int J Hydrogen Energy
, vol.32
, pp. 4365-4380
-
-
Yuan, X.1
Wang, H.2
Sun, J.3
Zhang, J.4
|