ELEKTROFYSIKELECTROPHYSICS

ELEKTROFYSIK
ELECTROPHYSICS

Publikationer: / Publications:

1992	1993	1994	1995	1996
1997	1998	1999	2000	2001

1992

1. I. Albinsson, B.-E. Mellander and J.R. Stevens, Ionic conductivity in poly(propylene glycol) complexed with lithium and sodium triflate, J. Chem. Phys. 96, 681 (1992).

2. I. Albinsson, P. Jacobsson, B-E Mellander and J.R. Stevens, Ion association effects and ionic conduction in polyalkalene modified dimethylsiloxanes, Solid State Ionics 53-56, 1044-1053 (1992).

3. N.H. Andersen, P.W.S.K. Bandaranayke, M.A. Careem, M.A.K.L. Dissanayake, R. Kaber, A. Lundén, B.-E. Mellander, L. Nilsson, J.O. Thomas and C.N. Wijayasekera, Paddle-wheel versus percolation mechanism for cation transport in some sulphate phases, Solid State Ionics 57, 203 (1992).

4. M. Friesel, B.-E. Mellander and J. Kubat, Phase transitions in poly(ethylene oxide) and polystyrene at high pressure, High Pressure Research 9, 169 (1992).

5. P. Jacobsson, I. Albinsson, B.-E. Mellander and J.R. Stevens, Ion association effects and phase separation in poly(propylene-oxide) modified poly(dimethylsiloxane) complexed with triflate salts, Polymer 33, 2778 (1992).

6. A. Lundén, B.-E. Mellander and B. Zhu, Proton conductivity in oxyacid salts at high temperature, In: Materials for High Temperature Fuel Cells, ed. B. Bergman, (Mediateknik KTH, Stockholm, 1992) p. 131.

7. J. L. Tallon and B.-E. Mellander, Large enhancement in oxygen mobility in the superconductors RBa₂Cu₃O₇ with increasing rare-earth size, Science 258, 781 (1992).

8. B. Zhu, J. Chen and B.-E. Mellander, Proton conduction in phosphates, In: Materials for High Temperature Fuel Cells, ed. B. Bergman, (Mediateknik KTH, Stockholm, 1992) p. 159.

1993

1. I. Albinsson, B.-E. Mellander and J.R. Stevens, Ion association effects and ionic conductivity in polymer electrolytes, Solid State Ionics 60, 63 (1993).

2. I. Albinsson and B.-E. Mellander, Electrical relaxation in polymer electrolytes, in: Fast Ion Transport in Solids, eds. B. Scrosati, A. Magistris, C.M. Mari and G. Mariotto (Kluver Academic Publishers, Dordrecht, 1993) p. 347.

3. B.-E. Mellander and B. Zhu, High temperature protonic conduction in phosphate based salts, Solid State Ionics 61, 105 (1993).

4. Å. Wendsjö, J. Lindgren and B.-E. Mellander, The phase diagram for the system Pb(CF₃SO₃)₂ - PEO, Solid State Ionics 59, 271 (1993).

5. B. Zhu and B.-E. Mellander, Novel proton conducting ceramics for solid state fuel cells, in: Solid Oxide Fuel Cells, eds. S.C. Singhal and H. Iwahara (The Electro-chemical Society, Pennington, 1993) p. 156.

6. B. Zhu and B.-E. Mellander, Ionic conductivities of nitrate-based oxide materials for solid state fuel cells, in: High Temperature Electrochemical Behaviour of Fast Ion and Mixed Conductors, eds. F.W. Poulsen, J.J. Bentzen, T. Jacobsen, E. Skou and M.J.L. Østergård (Risø National Laboratory, Roskilde, 1993) p. 495.

7. B. Zhu, B.-E Mellander and J. Chen, Cubic alkali orthophosphates with high ionic conductivity, Mat. Res. Bull. 28, 321 (1993).

1994

1. I. Albinsson, Dielectric and conductivity studies of polymer electrolytes, thesis, Chalmers University of Technology, 1994.

2. I. Albinsson, B.-E. Mellander and J.R. Stevens, Ion conductivity, electrical relaxation and ion association in poly(propylene glycol) complexed with ammonium triflate, Solid State Ionics, 72, 177 (1994).

3. O. Björkström, A. Fredriksson, B.-E. Mellander, J.E. Diosa and R.A. Vargas, Anomalous phase behavior of (NH4)HSO4, Solid State Ionics 69, 75 (1994).

4. B. Nettelblad, Studium av de dielektriska egenskaperna hos impregnerade porösa material, lic. thesis, Chalmers University of Technology, 1994.

5. B. Nettelblad and G.A. Niklasson, On the low frequency permittivity of liquid-filled porous media, Solid State Commun. 90, 201 (1994)

6. B. Zhu, Z.H. Lai and B.-E. Mellander, Structure and ionic conductivity of lithium sulphate-aluminum oxide ceramics, Solid State Ionics, 70/71, 125 (1994).

7. B. Zhu and B.-E. Mellander, Intermediate temperature fuel cells with electrolytes based on oxyacid salts, J. Power Sources 52, 289 (1994).

8. B. Zhu and B.-E. Mellander, Ionic conduction in composite materials containing one molten phase, Solid State Phenomena 39-40, 19 (1994).

9. B. Zhu and B.-E. Mellander, Proton conduction in nitrate-based oxides and related ceramics at intermediate temperatures, Solid State Ionics 70/71, 285 (1994).

10. B. Zhu, B.-E. Mellander and B. Stjerna, Infrared spectra of the rubidium nitratre alumina composites, Solid State Communications, 91 (1994) 709.

11. B. Zhu, B. Stjerna and B.-E. Mellander, Cubic rubidium nitratre at room temperature, Solid State Commun. 89 (1994) 135.

1995

1. H. Dérand, B. Wesslén and B.-E. Mellander, Anionic graft copolymers containing poly(ethylene oxide), Electrochim. Acta 40, 2413 (1995).

2. B. Nettelblad, G.A. Niklasson, B. Åhlén and R.M. Holt, Approximate determination of surphase conductivity in porous media, J. Phys. D 28, 2037 (1995).

3. B. Nettelblad and G.A. Niklasson, The effects of salinity on low frequency dielectric dispersion in liquid-impregnated porous solids, J. Phys.: Condens. Matter 7, L619 (1995).

4. T. Norby, M. Friesel and B.-E. Mellander, Proton and deuteron conductivity in CsHSO4 and CsDSO4 by in situ isotopic exchange, Solid State Ionics 77, 105 (1995).

5. S. Yoshikado, H. Goto, T. Murata, Y. Azuma, I. Taniguchi, Y. Ito and B.-E. Mellander, Ion conduction in b-AgI single crystal at low temperatures, Solid State Ionics 79, 124 (1995).

6. B. Zhu, Intermediate temperature solid ionic conductors and fuel cells, thesis, Chalmers University of Technology, 1995

7. B. Zhu and B.-E. Mellander, Proton conducting composite materials at intermediate temperatures, Ferroelectrics, 167, 1 (1995).

8. B. Zhu and B.-E. Mellander, Proton conduction in salt-ceramic composite systems, Solid State Ionics 77, 244 (1995).

1996

1. L.R.A.K. Bandara, M.A.K.L. Dissanayake and B.-E. Mellander, Effect of plasticizers on the electrical and transport properties of (PEO)-LiCF3SO3 electrolytes, in: Solid State Ionics: New Developments, eds. B.V.R. Chowdari, M.A.K.L. Dissanayake and M.A. Careem (World Scientific, Singapore, 1996) p. 405.

2. B.-E. Mellander and I. Albinsson, Electric and dielectric properties of polymer electrolytes, in: Solid State Ionics: New Developments, eds. B.V.R. Chowdari, M.A.K.L. Dissanayake and M.A. Careem (World Scientific, Singapore, 1996) p. 83.

3. B.-E. Mellander and I. Albinsson, Ion association in alkali triflate salt-poly(propylene oxide) polymer electrolytes, in: Solid State Ionics: New Developments, eds. B.V.R. Chowdari, M.A.K.L. Dissanayake and M.A. Careem (World Scientific, Singapore, 1996) p. 97.

4. B. Nettelblad, Dielectric properties of liquid-impregnated porous solids, thesis, Chalmers University of Technology, 1996.

5. B. Nettelblad, Electrical and dielectric properties of systems of porous solids and salt containing non-polar liquids, J. Appl. Phys. 79, 7106 (1996).

6. B. Nettelblad and B.-E. Mellander, Distribution of the electric field within porous materials calculated using the grain consolidation model, IEEE Transactions on Dielectrics and Electrical Insulation, 3, 99 (1996).

7. B. Nettelblad and G.A. Niklasson, Effects of microgeometry on the permittivity of impregnated porous media, J. Phys. Cond. Matter 8, 7049 (1996).

8. B. Nettelblad and G.A. Niklasson, Conductivity of random sphere packings: Effects of a size distribution, Phys. Rev. E 53, 3864 (1996).

9. B. Nettelblad and G.A. Niklasson, Simple expressions for the dielectric response of suspensions in an electrolyte, J. Coll. Int. Sci. 181, 165 (1996).

10. B. Nettelblad and G.A. Niklasson, The dielectric dispersion of liquid-filled porous sintered materials, J. Phys. Cond. Matter 8, 2781 (1996).

11. R. Tärneberg, Transport properties of solid sulphates at high temperatures, thesis, Göteborg University, 1996.

12. R. Tärneberg, Sulphate rotator phases in polarised light, Z. Naturforsch. 51a, 1157 (1996).

1997

1. I. Albinsson, H. Eliasson and B.-E. Mellander, Dielectric properties of polymer electrolytes, Dielectrics Newsletter, April issue (1997) p. 1.

2. J.E. Diosa, R.A. Vargas and B.-E. Mellander, Oxygen diffusion in Y1-xPrxBa2Cu3O7- observed by resistivity measurements, J. Phys.: Cond. Matter 9, 4621 (1997).

3. J.E. Diosa, R.A. Vargas and B.-E. Mellander, Estudio de la difusión de oxígeno en LaBa_1.3Ca_0.7Cu₃O_7-_d por medias de resistividad y termogravimetría, Revista Colombiana de Física, 29, 263 (1997).

4. M. Furlani and B.-E. Mellander, Poly(ethylene oxide)9/Li(CF3SO3) /poly(perfluoroethers) as improved electrolytic system for lithium batteries, in: Synthesis and Methodologies in Inorganic Chemistry - New Compounds and Materials - 7, eds: S. Daolio, E. Tondello and P.A. Vigato (University of Padova and CNR, Padova,1997) p. 356.

5. B.-E. Mellander, Elektriska egenskaper hos jonledande och dielektriska material - bränsleceller och andra tillämpningar, CIC-nytt, 17 (1997) (in Swedish, title in English: Electrical properties of ion conducting and dielectric materials, fuel cells and other appplications)

6. B. Nettelblad, B. Zhu and B.-E. Mellander, Interfacial conduction in ionically conducting two-phase materials: Calculations using the grain consolidation model, Phys. Rev. B 55, 6232 (1997).

7. B Nettelblad, G. A Niklasson, Dielectric relaxations in liquid-impregnated porous solids, J. Materials Science, 32, 3783, (1997).

8. E. Ortiz, R.A. Vargas, B.-E. Mellander and A. Lundén, On the high-temperature phase transitions in dihydrogen phosphates, Polish J. Chem., 71, 1797 (1997).

9. R. Tärneberg and B.-E. Mellander, Ion transport in high temperature rotator phase solid electrolytes, Solid State Ionics 98, 175 (1997).

10. B. Zhu, X. Luo, C. Xia, I. Albinsson and B.-E. Mellander, Electrical properties of ZrO₂-CeO₂ at intermediate temperatures, Ionics 3, 363 (1997).

11. B. Zhu and B.-E. Mellander, Proton conduction and diffusion in Li2SO4, Solid State Ionics, 97, 535 (1997).

12. B. Zhu and B.-E. Mellander, Determination of proton diffusion in solid electrolytes, Ionics 3, 368 (1997).

13. B. Zhu, B.-E. Mellander, L. Wanyu, S. Chen, X. Xiu and D. Wang, A novel solid electrolyte material LiNaSO₄-Al₂O₃ for intermediate temperature fuel cells, J. Inorganic Materials (China), 12, 412 (1997).

14. B. Zhu, K. Rundgren and B.-E. Mellander, Ceramic membranes - potential uses for solid state protonic conductors, Solid State Ionics, 97, 385 (1997).

1998

1. L.R.A.K. Bandara, M.A.K.L. Dissanayake and B.-E. Mellander, Ionic conductivity of plasticized (PEO)-LiCF3SO3 electrolytes, Electrochim. Acta 43, 1447 (1998).

2. H. Derand, B. Wesslén and B.-E. Mellander, Ionic conductivity and dielectric properties of poly(ethylene oxide) graft copolymers end-capped with sulfonic acid, Electrochim. Acta 43, 1525 (1998).

3. H. Eliasson, Dielectric relaxation in amorphous and semicrystalline polymers, licentiate thesis, Göteborg University, 1998

4. H. Eliasson, I. Albinsson and B.-E. Mellander, Dielectric and conductivity studies of a silver ion conducting polymer electrolyte, Electrochim. Acta 43, 1459 (1998).

5. H. Eliasson, B.-E. Mellander and L. Sjögren, Mode-coupling analysis of amorphous PET, J. Non-Crystalline Solids, 235-237, 101 (1998).

6. A. Ferry, M. Furlani, A. Franke, P. Jacobsson and B.-E. Mellander, Spectroscopic studies of luminescent and ionically conducting Eu[N(CF₃SO₂)₂]₃-PPG4000 complexes, J. Chem. Phys., 109, 2921 (1998).

7. M. Furlani, L.R.A.K. Bandara and B.-E. Mellander, Ionic conductivity and plasticizing effect in the system poly(ethylene oxide)₉/Li(CF₃SO₃)-poly(perfluoroethylmethyloxide), Electrochim. Acta 43, 1517 (1998).

8. M. Furlani, A. Ferry, A. Franke, P. Jacobsson, and B.-E. Mellander, Time Resolved Luminescence Spectroscopy of EuTFSI and EuTFSI/Polyether Solutions, in: “Syntheses and Methodologies in Inorganic Chemistry - New Compounds and Materials - 8” Edited by S. Daolio, M. Fabrizio, E. Tondelo, L. Armelao, P. A. Vigato, (University of Padova and CNR, Padova, 1998) p. 142.

9. M. Furlani, A. Ferry, A. Franke, P. Jacobsson, and B.-E. Mellander, Time resolved luminescence and vibrational spectroscopic studies on complexes of poly(ethylene oxide) oligomers and Eu(TFSI)₃ salt, Solid State Ionics, 113-115, 129 (1998).

10. D. Hanstorp, J. Enger, B.-E. Mellander and K. Stiller, Examination by laboratory work, Internal report 1998.

11. B.-E. Mellander and I. Albinsson, Proton conduction in oxyacid salts at intermediate temperatures for fuel cell applications, Ionics 4, 415 (1998)

12. E. Ortiz, R.A. Vargas and B.-E. Mellander, On the reported high-temperature phase transition in KH₂PO₄ - Strong evidence of partial polymerisation instead of a structural phase transition, J. Phys. Chem. Solids, 59, 305 (1998).

13. E. Ortiz, R.A. Vargas, G. Cuervo, B.-E. Mellander and J. Gustafson, On the high-temperature phase transition of RbH₂PO₄ - A polymorphic transition?, J. Phys. Chem. Solids, 59, 1111 (1998).

14. R.A. Vargas, J.E. Diosa and B.-E. Mellander, Oxygen behavior in Nd_2-xCe_xCuO_4-_d observed by resistivity measurements, Revista Mexicana de Fisica, 44, 377 (1998).

15. B. Zhu, I. Albinsson and B.-E. Mellander, Electrical properties of gadolinium-doped ceria and composites, Ionics. 4, 261 (1998).

16. B. Zhu, C.-R. Xia, I. Albinsson and B.-E. Mellander, Structural and electrical properties of g-alumina - lithium sulphate films, Ionics 4, 330 (1998).

1999

1. H. Eliasson, Relaxation processes in disordered systems - dielectric studies of amorphous and semi-crystalline polymers, thesis, Göteborg University 1999.

2. H. Eliasson and B.-E. Mellander, Dielectric relaxation in PAN-EC-PC mixtures analysed within the mode-coupling A₄ scenario, in: slow dynamics n complex systems, eds. M. Tokuyama and I. Oppenheim, AIP conference proceedings Vol. 469 (American Institute of Physics, New York, 1999) p. 533.

3. H. Eliasson and B.-E. Mellander, Higher-order mode-coupling theory analysis of dielectric measurements on semi-crystalline PET, J. Phys. Cond. Matter 11, 8807 (1999).

4. H. Eliasson, B.-E. Mellander and L. Sjögren, Dielectric relaxation in PAN+EC+PC mixtures, J. Phys. Cond. Matter, 11, 10285 (1999).

5. D. ManailaMaximean, M. Furlani, R. Bena, B.-E. Mellander, C. Rosu, T. Pop, C. Motoc, Phase transition investigations in polymer/liquid crystal composite materials Modern Physics Letters B 13, 759 (1999)

6. E. Ortiz, R.A. Vargas and B.-E. Mellander, On the high-temperature phase transitions of CsH₂PO₄ - A polymorphic transition? A transition to a superprotonic conducting phase? J. Chem. Phys., 110, 4847 (1999).

7. E. Ortiz, R. A. Vargas and B.-E. Mellander, On The High-Temperature Phase Transitions of Some KDP-Family Compounds— a Structural Phase Transition? a Transition to a Bulk-High Proton Conducting Phase?, Solid State Ionics 125, 177 (1999).

8. M. Rasmusson, B.-E. Mellander and J. Ennis, Surface electrical properties of polystyrene latex 2, ESA and dielectric response, J. Colloid and Interface Science 209, 327 (1999).

9. R. A. Vargas, E. Torijano, J. E. Diosa and B.-E. Mellander, On the high temperature phase behaviour of (NH₄)H₂AsO₄, Solid State Ionics 125, 187 (1999).

10. M. A. Vargas, R. A. Vargas and B.-E. Mellander, New proton conducting membranes based on PVAL/H₃PO₂/H₂O, Electrochim. Acta 44, 4227 (1999).

11. B. Zhu, I. Albinsson and B.-E. Mellander, Impedance spectroscopy study of gadolinia-doped ceria, Ionics 5, 286 (1999).

12. B. Zhu, G.Y. Meng, I. Albinsson and B.-E. Mellander, Gadolinia doped ceria and composites for fuel cell applications, in: Solid State Ionic Devices, eds. E.D. Wachsman, M.-L. Liu, J.R. Akridge and N. Yamazoe (The Electrochemical Society, Pennington, USA, 1999) p.52-60

13. B. Zhu, I. Albinsson, B-E. Mellander and G. Meng, Intermediate temperature proton conducting fuel cells - present experience and future opportunities, Solid State Ionics 125, 439 (1999).

14. B. Zhu, J. Hu, S. Tao and B.-E. Mellander, Natural salt and fluoride based electrolytes fuel cells, Ionics 5, 472 (1999).

15. B. Zhu, G. Meng and B.-E. Mellander, Non-conventional fuel cell systems: New concepts and development, J. Power Sources 79, 30 (1999).

16. B. Zhu and B. -E. Mellander, Performance of Intermediate Temperature SOFCs with Composite Electrolytes, in: Solid Oxide Fuel Cells VI, eds. S. C. Singhal and M. Dokiya, (The Electrochemical Society, Pennington, USA, 1999), pp. 244-253.

2000

1. H. Eliasson, I. Albinsson and B.-E. Mellander, Conductivity and dielectric properties of AgCF₃SO₃-PPG, Materials Research Bulletin 35, 1053-1065 (2000).

2. L.R.A.K. Bandara, M.A.K.L. Dissanayake, M. Furlani and B.-E. Mellander, Broad-band dielectric behaviour of plasticized PEO-based solid polymer electrolytes, Ionics 6, 239 (2000).

3. L.R.A.K. Bandara, M.A.K.L. Dissanayake and B.-E. Mellander, Conductivity enhancement in the plasticized solid polymer electrolyte PEO:LiCF₃SO₃:EC by the addition of a-Al₂O₃, in: Solid State Ionics - Materials and Devices, eds. B V R Chowdari W. Wang (World Scientific, Singapore, 2000) p. 401.

4. J.E. Diosa, R.A. Vargas, E. Mina, E. Torijano and B.-E. Mellander, Phase transitions of KHSO₄ above room temperature, Phys. Stat. Sol. (b) 220, 641 (2000).

4. G. Orädd, M. Furlani and A. Ferry, Diffusion and dielectric studies of the system PPO4000-NH₄CF₃SO₃, Solid State Ionics 136-137, 457 (2000).

5. E. Torijano, R.A. Vargas, J.E. Diosa and B.-E. Mellander, High temperature phase transitions of NH₄H₂SO₄, Phys. Stat. Sol. (b) 220, 659 (2000).

6. E. Torijano, R. A. Vargas, J. E. Diosa, R. Cataño and B. -E. Mellander, Phase behaviour of RbH₂AsO₄ above room temperature, Solid State Ionics, 136-137, 979-984 (2000).

7. M.A. Vargas, R.A. Vargas and B.-E. Mellander, Phase behavior of a PVAL-based polymer proton conductor, Phys. Stat. Sol. (b) 220, 615 (2000).

8. Vargas MA, Vargas RA, Mellander BE More studies on the PVAl+H₃PO₂+H₂O proton conductor gels Electrochimica Acta 45, 1399-1403 2000

9. B. Zhu, I. Albinsson and B.-E. Mellander, Intermediate temperature fuel cells using alkaline and alkaline earth fluoride-based electrolytes, Solid State Ionics, 135, 503-512 (2000).

10. Zhu B, Mellander B.-E., Proton conducting materials based on hydrofluorides, J. Mat. Sci. Lett.19, 971 (2000).

2001

1. H. Eliasson, Mode-coupling theory and polynomial fitting functions: A complex-plane representation of dielectric data on polymers, Phys. Rev. E, 64, 1802 (2001).

2. T. Pop, D. Manaila-Maximean, I. Pop, M. Furlani, and B.-E. Mellander, Dielectrical studies on a polymer electrolyte using the thermally stimulated depolarization current method, Romanian Reports in Physics 52, 495-501 (2001)

Redigerad 6/2 2002: I. Albinsson (ialbin@fy.chalmers.se),