116949 D 00893 Membran elektrolit Bibliografi
Disertasi
DAFTAR PUSTAKA
Antonucci, P. L., Arico, A. S., Creti, P., Ramunni, E., Antonucci, V. 1999. Investigation
of a Direct Methanol Fuel Cell Based on a Composite Nafion-Silika Electrolyte
for High Temperature Operation. Solid State Ionics. 125, 431–439.
Alberti, G. Casciola, M., Massinelli, L., Bauer, B. 2001. Polymeric proton conducting
membranes for medium temperature fuel cells (110-160oC). Journal of Membrane
Science, 185: 73-81.
Almeida, S.H., Kawano, Y. 1999. Thermal Behaviour of Nafion Membrane. Journal
Thermal Anal. Calorimetry, (58), 3: 589-577
Arico, A.S., Baglio, V., Di Blasi, A., Creti, P., Antonucci, P.L. Antonucci, V. 2003.
Influence of the Acid-Base Characteristics of Inorganic Fillers on the High
Temperature Performance of Composite Membranes in Direct Methanol Fuel
Cells. Solid State Ionics, (161): 251-265.
Arimura, T., Ostrovskii, D., Okada, T., Xie, G. 1999. The Effect of additives on the
Ionic Conductivity Performances of Perfluoroalkyl Sulfonated Ionomer
Membranes. Solid State Ionics, (118): 1-10.
Baird, D.G. et al. 2004. Polymer Electrolyte Membrane Fuel Cell : Opportunities for
Polymers and Composites. Plastic Engineering.
Bossel, U. 2000. The birth of the Fuel Cell. Oberrohrdorf: European Fuel Cell Forum.
Brydson, J.A. 1995. Plastic Materials. 6th ed. Butterworth Heinemann Ltd.
Buchari. 1990. Studi Perbandingan Berbagai Teknik Analisis Penetapan Silikon dalam
Senyawa Aluminosilikat. Tesis. Institut Teknologi Bandung. Bandung.
Cacciola, G., Antonucci, V., Freni, S. (2001) Technology up date and new strategies on
fuel cells. J. Power Source, 100: 67-79
Carbone, A., Pedicini, R. Portale, G., Longo, A. D’Ilario, L.D., Passalacqua, E. (2006)
Sulphonated poly(ether ether ketone) membranes for fuel cell application:
Thermal and structural characterisation. J. Power Source, 163: 18-26.
Carrette, L., Friedrich, K.A., Stimming, U. 2001. Fuel Cells – Fundamentals and
Applications. Fuel Cells, (1): 5-39.
Cussler, E.L. 1985. Diffusion Mass Transfer in Fluid Systems, Cambridge Univ. Press.
Cho, K.Y., Eom J.Y., Jung, H.Y., Choi, N.S., Lee, Y.M. 2004. Characteristic of PVdF
Copolymer/Nafion Blend Membranes for Direct Methanol Fuel Cell (DMFC).
Electrochimica Acta.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
104
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Demuth, TH., Benco, L., Hafner, J., Toulhoat, H. 2001. Adsorption of Water in
Mordenite-An ab initio Study. International Journal of QuantumChemistry, (84):
110-116.
Dohle, H., Divisek, J., Jung, R. 2000. Process Engineering of the Direct Methanol Fuel
Cell. Journal of Power Sources, (86): 69-477.
Domitrova, P., Friedriech, K.A., Stimming, U., Vogt, B. 2002. Modified Nafion-based
membranes for use in direct methanol fuel cells. Solid state ionics, (150): 115122.
Dupont. 1996. Product Information.
EG&G Services Parsons, Inc. Science Applications International Corporation. Fuel Cell
Handbook. U.S. Department of Energy: Morgantown, West Virginia. –
Eniya, L. D. 2005. The Effect of Moisture Absorbing Particle on Methanol Permeability
of Modified Nafion Membrane in Fuel Cells. The 3rd Regional Symposium on
membrane Technology for Industry and Enviromental Protection, ITB-Bandung.
Fenton, J.M. Direct Methanol Fuel Cell. ME 295/320 Fuel Cell Engg.
Genova, D.P., Baradie, B. 2001. Ionomeric Membrane for Proton Exchange Membrane
Fuel Cell (PEMFC) : Sulfonated Polysulfone Associated with
Phosphatoantimonic Acid. Journal of Membrane Science, (185): 59-71.
Gill, M., Xiangling Ji, Xianfeng Li, Hui Na, J. Eric Hampsey, Yunfeng Lu. 2004. Direct
synthesis of sulfonated aromatic poly(ether ether ketone) proton exchange
membranes for fuel cell applications. Journal of Membrane Science, (234): 75-81.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007a. Sintesis dan
Karakterisasi Membran Elektrolit Polieter-eter Keton Tersulfonasi. Indoneisa
Journal of Material Science, (Vol. 8), No. 2: 129-133.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007b. Preparasi Membran
Elektrolit berbasis Poliaromatik untuk Aplikasi Sel Bahan Bakar Metanol
Langsung Suhu Tinggi. Indoneisa Journal of Material Science, (Vol. 8) No. 3:
192-197.
Handayani S., Eniya L. D., Widodo W. P., Roekmijati W. S. 2007c. Blending
Polisulfon dengan Polieter-eter Keton Tersulfonasi untuk Sel Bahan Bakar
Metanol Langsung. Jurnal Teknologi, (XXI) No.2: 158-164.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007d. Membran
Komposit Polieter-eter Keton Tersulfonasi/Zeolit untuk aplikasi Sel Bahan Bakar
Metanol Langsung. Indoneisa Journal of Material Science, (8) No. 4:52-56.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007e. Pengaruh Aditif
terhadap Karakteristik Membran Elektrolit Polieter-eter keton tersulfonasi untuk
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
105
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
aplikasi sel bahan bakar metanol langsung. Jurnal Teknik Kimia Indonesia,(Vol.
6) No.1: 563–570.
Handayani S., Eniya L. D., Hartanto S., Widodo W. P., Roekmijati W. S. 2007f.
Increasing Ionic Conductivity by Moisture Absorbing Nanoparticle on Modifed
Sulfonated Polyether-ether Ketone Membrane for Direct Methanol Fuel Cells.
Journal Institute for Science and Technology Studies (ISTECS), (X): 79-89.
Handayani S., Eniya L. D., Widodo W. P., Roekmijati W. S. 2008. Proton Transport
Properties at High Temperature of Modified Sulfonated Polyether-ether Ketone
Membrane for Direct Methanol Fuel Cells Application. Journal of Chemical
Engineering of Japan,
(Submitted).
Hasiotis, C., Deimede, V. and Kontoyannis, C. 2001. New Polymer Electrolytes based
on Blends Sulfonated Polysulfone with Polybenzimidazole. Electrochimica Acta,
(46): 2410-2406.
Heinzel, A., Barragan, A.M. 1999. A Review of the State-of-the Art of the Methanol
Crossover in Direct Methanol Fuel Cells. Journal of Power Sources, (84): 70-74.
Jiabin H.G., Ge. 2005. Experiment Studies of a Direct Methanol Fuel Cell. Journal of
Power Sources, (142): 56-69.
Jones, D.J. and Roziere, J. 2001. Recent Advances in the Functionalisation of
Polybenzimidazole and Polyetherketone for Fuel Cell Applications. Journal of
Membrane Science, (185): 41-58.
Jung, B., Kim, B., Yang, J.M. 2004. Transport of Methanol and Protons Through
partially sulfonated Polymer blend Membranes for Direct Methanol Fuel Cell.
Journal of Membrane Science, (245): 61-69.
Kerres, J.A., 2001. Development of Ionomer Membranes for Fuel Cells. Journal of
Membrane Science, (185): 3-27.
Kim, Y.S., Wang,F., Hickner, M., Zawodzinski, T.A., McGrath, J.E. 2003. Fabrication
and Characterization of Heteropolyacid (H3PW12O40)/Directly Polymerized
Sulfonated Poly(Arylene Ether Sulfone) Copolymer Composite Membranes for
Higher Temperature Fuel Cell Applications. Journal of Membrane Science, (212):
263-282.
Kopitzke, R.W., Linkous, C.A., Anderson, H.R., Nelson, G.L. 2000. Journal
Electrochem. Soc., (147): 1677.
Kreuer, K.D. 2001. On the development of proton conducting polymer membranes for
hydrogen and methanol fuel cells. Journal of Membrane Science, (85): 29-39.
Laminie, James and Dicks A. 2000. Fuel Cell System Explained. John Wiley & Sons,
Ltd: Baffins Lane, Chichester, England.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
106
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Li L., Jun Zhang, Yuxin Wang. 2003. Sulfonated Poly(Ether Ether Ketone) Membranes
for Direct Methanol Fuel Cells. , Journal Membrane Science, 226, hal. 159-167.
Lufrano, F., Squadrito, G., Patti A., Passalacqua, E. (2000). Sulfonated Polysulfone as
Promising Membranes for Polymer Electrolyte Fuel Cells. J. Appl. Polym. Sci., 77:
1250-1257.
Manea, C. and Mulder, M. 2002. New Polymeric Electrolyte Membranes Based on
Proton Donor-Proton Acceptor Properties for Direct Methanol Fuel Cells.
Desalination, (147): 179-182.
Manea, C. and Mulder, M. 2002. Characterization of Polymer Blends of
Polyethersulfone/sulfonated Polysulfone and Polyethersulfone/Sulfonated
Polyetheretherketone for Direct Methanol Fuel Cell Aplications. Journal of
Membrane Science, (206): 443-453.
Mikhailenko, S.D., Zaidi, S.M.J., Kaliaguine, S. (2001). Sulfonated polyether ether
ketone based composite polymer electrolyte membranes. Catalysis Today, 67:
225-236.
Mulder M. 1997. Basic Principles of Membrane Technology. (2nd ed.). Boston-London.
Kluwer Academic Publisher.
Neburchilov, V., Martin, J., Wang, H., Zhang, J. 2007. Review of Polymer Electrolyte
Membranes for Direct Methanol Fuel Cells. J. Power Sources, 169: 221-238.
Nolte,R., Ledjeff,K. 1993. Partially Sulfonated poly(arylene ether sulfone) a Versatile
Proton Conducting Membrane Material for Modern Energy Conversation
Technologies. Journal of Membrane Science, (83): 211-220.
Nunes, S.P., Ruffmann, B., Riwokowski, E., Vetter, S., Richau, K. 2002. Inorganic
Modification of Proton Conductive Polymer Membranes for Direct Methanol
Fuel Cells. Journal of Membrane Science (203): 215-225.
Othman, M.H.D., Mustafa, S.L., Ismail, A.F. 2005. Organic/Inorganic Hybrid
Membrane for Direct Methanol Fuel Cell Aplication. The 3rd Regional Symposium
on membrane Technology for Industry and Enviromental Protection, ITBBandung.
Poltarzewski Z., Wieczorek W., Przyluski J., Antonnucci V. 1999. Novel Proton
Conducting Composite Electrolyte For Application in Methanol Fuel Cells”,
Solid State Ionics, 119: 301-304.
Ramani, V., Kunz, H.R., Fenton, J.M. 2004. Investigation of Nafion/HPA Composite
Membranes for High Temperature/Low Relative Humidity PEMFC operation.
Journal of Membrane Science (232): 31-44.
Raymond B. Engineering Polymer Source book. Mc.Graw Hill Pub.Co. p.101.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
107
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Rikukawa, M. and Sanui, K. 2000. Proton-Conducting Polymer Electrolyte Membrane
Based on Hydrocarbon Polymers. Prog.Polym.Sci., (25): 1463-1502.
Robertson, G.P., Mikhaelenko, S.D., Wang, K., Xing, P., Gueiver, M.D. 2003. Casting
Solvent Interactions With Sulfonated Poly(ether ether ketone) During Proton
Exchange Membrane Fabrication. Journal of Membrane Science (219): 113-121.
Roelofs, M. 2001. Membrane Issues for PEM Fuel Cells. DuPont Fuel Cell, NSF
Workshop. Virginia.
Savadogo, O. 2004. Emerging Membranes for Electrochemical Systems Part II. High
Temperature Composite Membranes for Polymer Electrolyte Fuel Cell (PEFC)
Aplications. Journal of Power Source, (127): 135-161.
Scott, K., Taama, W.M., Argyropolous, P., Sundmacher. 1999. The Impact of Mass
Transport and Methanol Crossover on the Direct Methanol Fuel Cell. Journal of
Power Sources, (83): 204-216.
Sancho, T., Soler, J., Pina M.P. (2007). Conductivity in zeolite-polymer composite
membranes for PEMFCs. J. Power Sources, 169: 92-97.
Solomons, T. W. G. 2004. Organic Chemistry. Eight Edition. John Wiley & Sons Inc.
Xing , P., Robertson, G.P., Guiver, M.D., Mikhaelenko, S.D., Wang, K., Kaliaguine, S.
2004. Synthesis and Charaterization of sulfonated Poly(Ether Ether Ketone) for
Proton Exchange Membranes. Journal of Membrane Science, (229), 95-106.
Yamada and Kouichi. Energy Resouce Issue and Direct Methanol Type Fuel Cell
Battery. SCEJ 33rd Fall Meeting, Sep/12-14. Hanamatsu. Japan
Weiss, R.A. and Shaw, M.T. 2004. Polymer Blend Proton Exchange Membranes. DOE
Hydrogen Program, 357-361.
Woo, Y., Young Oh, Kang, Y.S., Jung, B. 2003. Synthesis and Characterization of
Sulfonated Polyimide Membranes for Direct Methanol Fuel Cell. Journal of
Membrane Science (220): 31-45.
Zaidi, S.M.J., Mikhailenko, S.D., Robertson, G.P., Kaliaguine, S. 2000. Proton
conducting composite membranes from polyether ether ketone and
heteropolyacids for fuel cell applications. J. Membr. Sci. 173: 17-34.
Zhou, W. J. et al. 2003. Performance Comparison of Low-Temperature Direct Alcohol
Fuel Cells with Different Anode Catalysts. (Article in Press) Journal of Power
Sources xxx xxx-xxx.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
108
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
DAFTAR PUSTAKA
Antonucci, P. L., Arico, A. S., Creti, P., Ramunni, E., Antonucci, V. 1999. Investigation
of a Direct Methanol Fuel Cell Based on a Composite Nafion-Silika Electrolyte
for High Temperature Operation. Solid State Ionics. 125, 431–439.
Alberti, G. Casciola, M., Massinelli, L., Bauer, B. 2001. Polymeric proton conducting
membranes for medium temperature fuel cells (110-160oC). Journal of Membrane
Science, 185: 73-81.
Almeida, S.H., Kawano, Y. 1999. Thermal Behaviour of Nafion Membrane. Journal
Thermal Anal. Calorimetry, (58), 3: 589-577
Arico, A.S., Baglio, V., Di Blasi, A., Creti, P., Antonucci, P.L. Antonucci, V. 2003.
Influence of the Acid-Base Characteristics of Inorganic Fillers on the High
Temperature Performance of Composite Membranes in Direct Methanol Fuel
Cells. Solid State Ionics, (161): 251-265.
Arimura, T., Ostrovskii, D., Okada, T., Xie, G. 1999. The Effect of additives on the
Ionic Conductivity Performances of Perfluoroalkyl Sulfonated Ionomer
Membranes. Solid State Ionics, (118): 1-10.
Baird, D.G. et al. 2004. Polymer Electrolyte Membrane Fuel Cell : Opportunities for
Polymers and Composites. Plastic Engineering.
Bossel, U. 2000. The birth of the Fuel Cell. Oberrohrdorf: European Fuel Cell Forum.
Brydson, J.A. 1995. Plastic Materials. 6th ed. Butterworth Heinemann Ltd.
Buchari. 1990. Studi Perbandingan Berbagai Teknik Analisis Penetapan Silikon dalam
Senyawa Aluminosilikat. Tesis. Institut Teknologi Bandung. Bandung.
Cacciola, G., Antonucci, V., Freni, S. (2001) Technology up date and new strategies on
fuel cells. J. Power Source, 100: 67-79
Carbone, A., Pedicini, R. Portale, G., Longo, A. D’Ilario, L.D., Passalacqua, E. (2006)
Sulphonated poly(ether ether ketone) membranes for fuel cell application:
Thermal and structural characterisation. J. Power Source, 163: 18-26.
Carrette, L., Friedrich, K.A., Stimming, U. 2001. Fuel Cells – Fundamentals and
Applications. Fuel Cells, (1): 5-39.
Cussler, E.L. 1985. Diffusion Mass Transfer in Fluid Systems, Cambridge Univ. Press.
Cho, K.Y., Eom J.Y., Jung, H.Y., Choi, N.S., Lee, Y.M. 2004. Characteristic of PVdF
Copolymer/Nafion Blend Membranes for Direct Methanol Fuel Cell (DMFC).
Electrochimica Acta.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
104
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Demuth, TH., Benco, L., Hafner, J., Toulhoat, H. 2001. Adsorption of Water in
Mordenite-An ab initio Study. International Journal of QuantumChemistry, (84):
110-116.
Dohle, H., Divisek, J., Jung, R. 2000. Process Engineering of the Direct Methanol Fuel
Cell. Journal of Power Sources, (86): 69-477.
Domitrova, P., Friedriech, K.A., Stimming, U., Vogt, B. 2002. Modified Nafion-based
membranes for use in direct methanol fuel cells. Solid state ionics, (150): 115122.
Dupont. 1996. Product Information.
EG&G Services Parsons, Inc. Science Applications International Corporation. Fuel Cell
Handbook. U.S. Department of Energy: Morgantown, West Virginia. –
Eniya, L. D. 2005. The Effect of Moisture Absorbing Particle on Methanol Permeability
of Modified Nafion Membrane in Fuel Cells. The 3rd Regional Symposium on
membrane Technology for Industry and Enviromental Protection, ITB-Bandung.
Fenton, J.M. Direct Methanol Fuel Cell. ME 295/320 Fuel Cell Engg.
Genova, D.P., Baradie, B. 2001. Ionomeric Membrane for Proton Exchange Membrane
Fuel Cell (PEMFC) : Sulfonated Polysulfone Associated with
Phosphatoantimonic Acid. Journal of Membrane Science, (185): 59-71.
Gill, M., Xiangling Ji, Xianfeng Li, Hui Na, J. Eric Hampsey, Yunfeng Lu. 2004. Direct
synthesis of sulfonated aromatic poly(ether ether ketone) proton exchange
membranes for fuel cell applications. Journal of Membrane Science, (234): 75-81.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007a. Sintesis dan
Karakterisasi Membran Elektrolit Polieter-eter Keton Tersulfonasi. Indoneisa
Journal of Material Science, (Vol. 8), No. 2: 129-133.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007b. Preparasi Membran
Elektrolit berbasis Poliaromatik untuk Aplikasi Sel Bahan Bakar Metanol
Langsung Suhu Tinggi. Indoneisa Journal of Material Science, (Vol. 8) No. 3:
192-197.
Handayani S., Eniya L. D., Widodo W. P., Roekmijati W. S. 2007c. Blending
Polisulfon dengan Polieter-eter Keton Tersulfonasi untuk Sel Bahan Bakar
Metanol Langsung. Jurnal Teknologi, (XXI) No.2: 158-164.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007d. Membran
Komposit Polieter-eter Keton Tersulfonasi/Zeolit untuk aplikasi Sel Bahan Bakar
Metanol Langsung. Indoneisa Journal of Material Science, (8) No. 4:52-56.
Handayani S., Eniya L.D. , Widodo W. P., Roekmijati W. S. 2007e. Pengaruh Aditif
terhadap Karakteristik Membran Elektrolit Polieter-eter keton tersulfonasi untuk
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
105
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
aplikasi sel bahan bakar metanol langsung. Jurnal Teknik Kimia Indonesia,(Vol.
6) No.1: 563–570.
Handayani S., Eniya L. D., Hartanto S., Widodo W. P., Roekmijati W. S. 2007f.
Increasing Ionic Conductivity by Moisture Absorbing Nanoparticle on Modifed
Sulfonated Polyether-ether Ketone Membrane for Direct Methanol Fuel Cells.
Journal Institute for Science and Technology Studies (ISTECS), (X): 79-89.
Handayani S., Eniya L. D., Widodo W. P., Roekmijati W. S. 2008. Proton Transport
Properties at High Temperature of Modified Sulfonated Polyether-ether Ketone
Membrane for Direct Methanol Fuel Cells Application. Journal of Chemical
Engineering of Japan,
(Submitted).
Hasiotis, C., Deimede, V. and Kontoyannis, C. 2001. New Polymer Electrolytes based
on Blends Sulfonated Polysulfone with Polybenzimidazole. Electrochimica Acta,
(46): 2410-2406.
Heinzel, A., Barragan, A.M. 1999. A Review of the State-of-the Art of the Methanol
Crossover in Direct Methanol Fuel Cells. Journal of Power Sources, (84): 70-74.
Jiabin H.G., Ge. 2005. Experiment Studies of a Direct Methanol Fuel Cell. Journal of
Power Sources, (142): 56-69.
Jones, D.J. and Roziere, J. 2001. Recent Advances in the Functionalisation of
Polybenzimidazole and Polyetherketone for Fuel Cell Applications. Journal of
Membrane Science, (185): 41-58.
Jung, B., Kim, B., Yang, J.M. 2004. Transport of Methanol and Protons Through
partially sulfonated Polymer blend Membranes for Direct Methanol Fuel Cell.
Journal of Membrane Science, (245): 61-69.
Kerres, J.A., 2001. Development of Ionomer Membranes for Fuel Cells. Journal of
Membrane Science, (185): 3-27.
Kim, Y.S., Wang,F., Hickner, M., Zawodzinski, T.A., McGrath, J.E. 2003. Fabrication
and Characterization of Heteropolyacid (H3PW12O40)/Directly Polymerized
Sulfonated Poly(Arylene Ether Sulfone) Copolymer Composite Membranes for
Higher Temperature Fuel Cell Applications. Journal of Membrane Science, (212):
263-282.
Kopitzke, R.W., Linkous, C.A., Anderson, H.R., Nelson, G.L. 2000. Journal
Electrochem. Soc., (147): 1677.
Kreuer, K.D. 2001. On the development of proton conducting polymer membranes for
hydrogen and methanol fuel cells. Journal of Membrane Science, (85): 29-39.
Laminie, James and Dicks A. 2000. Fuel Cell System Explained. John Wiley & Sons,
Ltd: Baffins Lane, Chichester, England.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
106
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Li L., Jun Zhang, Yuxin Wang. 2003. Sulfonated Poly(Ether Ether Ketone) Membranes
for Direct Methanol Fuel Cells. , Journal Membrane Science, 226, hal. 159-167.
Lufrano, F., Squadrito, G., Patti A., Passalacqua, E. (2000). Sulfonated Polysulfone as
Promising Membranes for Polymer Electrolyte Fuel Cells. J. Appl. Polym. Sci., 77:
1250-1257.
Manea, C. and Mulder, M. 2002. New Polymeric Electrolyte Membranes Based on
Proton Donor-Proton Acceptor Properties for Direct Methanol Fuel Cells.
Desalination, (147): 179-182.
Manea, C. and Mulder, M. 2002. Characterization of Polymer Blends of
Polyethersulfone/sulfonated Polysulfone and Polyethersulfone/Sulfonated
Polyetheretherketone for Direct Methanol Fuel Cell Aplications. Journal of
Membrane Science, (206): 443-453.
Mikhailenko, S.D., Zaidi, S.M.J., Kaliaguine, S. (2001). Sulfonated polyether ether
ketone based composite polymer electrolyte membranes. Catalysis Today, 67:
225-236.
Mulder M. 1997. Basic Principles of Membrane Technology. (2nd ed.). Boston-London.
Kluwer Academic Publisher.
Neburchilov, V., Martin, J., Wang, H., Zhang, J. 2007. Review of Polymer Electrolyte
Membranes for Direct Methanol Fuel Cells. J. Power Sources, 169: 221-238.
Nolte,R., Ledjeff,K. 1993. Partially Sulfonated poly(arylene ether sulfone) a Versatile
Proton Conducting Membrane Material for Modern Energy Conversation
Technologies. Journal of Membrane Science, (83): 211-220.
Nunes, S.P., Ruffmann, B., Riwokowski, E., Vetter, S., Richau, K. 2002. Inorganic
Modification of Proton Conductive Polymer Membranes for Direct Methanol
Fuel Cells. Journal of Membrane Science (203): 215-225.
Othman, M.H.D., Mustafa, S.L., Ismail, A.F. 2005. Organic/Inorganic Hybrid
Membrane for Direct Methanol Fuel Cell Aplication. The 3rd Regional Symposium
on membrane Technology for Industry and Enviromental Protection, ITBBandung.
Poltarzewski Z., Wieczorek W., Przyluski J., Antonnucci V. 1999. Novel Proton
Conducting Composite Electrolyte For Application in Methanol Fuel Cells”,
Solid State Ionics, 119: 301-304.
Ramani, V., Kunz, H.R., Fenton, J.M. 2004. Investigation of Nafion/HPA Composite
Membranes for High Temperature/Low Relative Humidity PEMFC operation.
Journal of Membrane Science (232): 31-44.
Raymond B. Engineering Polymer Source book. Mc.Graw Hill Pub.Co. p.101.
Membran elektrolit berbasis polieter-eter keton tersulfonasi untuk direct methanol fuel cell suhu tinggi
107
Membran elektrolit..., Sri Handayani, FT UI, 2008.
Sri Handayani (2008)
Disertasi
Rikukawa, M. and Sanui, K. 2000. Proton-Conducting Polymer Electrolyte Membrane
Based on Hydrocarbon Polymers. Prog.Polym.Sci., (25): 1463-1502.
Robertson, G.P., Mikhaelenko, S.D., Wang, K., Xing, P., Gueiver, M.D. 2003. Casting
Solvent Interactions With Sulfonated Poly(ether ether ketone) During Proton
Exchange Membrane Fabrication. Journal of Membrane Science (219): 113-121.
Roelofs, M. 2001. Membrane Issues for PEM Fuel Cells. DuPont Fuel Cell, NSF
Workshop. Virginia.
Savadogo, O. 2004. Emerging Membranes for Electrochemical Systems Part II. High
Temperature Composite Membranes for Polymer Electrolyte Fuel Cell (PEFC)
Aplications. Journal of Power Source, (127): 135-161.
Scott, K., Taama, W.M., Argyropolous, P., Sundmacher. 1999. The Impact of Mass
Transport and Methanol Crossover on the Direct Methanol Fuel Cell. Journal of
Power Sources, (83): 204-216.
Sancho, T., Soler, J., Pina M.P. (2007). Conductivity in zeolite-polymer composite
membranes for PEMFCs. J. Power Sources, 169: 92-97.
Solomons, T. W. G. 2004. Organic Chemistry. Eight Edition. John Wiley & Sons Inc.
Xing , P., Robertson, G.P., Guiver, M.D., Mikhaelenko, S.D., Wang, K., Kaliaguine, S.
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