Published Papers:  D. Minic, R. Dimitrijevic and M. Šušic, Changes of Electrical and Structural Characteristics of Cold Sintered Potassium Dihydrogen Arsenate with Temperature, in "Science of Sintering, New Directions for Materials Processing  and Microstructural Control", ed. D. Uskokovic and H.Palmour III, R.Springs, Plenum Press,1990 str. 555-563. D. Minic, M. Šuši?, N. Petranovic and R. Dimitrijevic, Electrical Conductivity of Acid Crystallohydrate MgHPO4 3H2O, and its Structural Transformations, Materials Chemistry and Physics, 19 (1988) 579-588. U. Mioc and D. Minic, Vibrational Study of Magnesium Acid Phosphate Trihydrate, J.Serb. Chem. Soc.52(6-7) (1987) 317-324. N. Petranovic, U. Mioc and D. Minic, Kinetic Aspects of Thermal Treatment of Acid Crystallohydrates MgHPO4 3H2O, Part.1. Changes in the IR spectra and Proton Delocalization, Thermochimica Acta 116 (1987) 131-136. N. Petranovic, U. Mioc and D. Minic, Kinetic Aspects of Thermal Treatment of Acid Crystallohydrates MgHPO4 3H2O, Part.2. Dehydration and Accompaining Effects, Thermochimica Acta 116 (1987) 137-143. D. Minic, M. Šušic, and Lj. Atanasoska, The Admittance Boundary at an Ag/CdBr2 4H2O, Interface During a Dehydration Process, Materials Chemistry and Physics, 14 (1986) 247-251. D. Minic, M. Šušic, U. Mioc and N. Petranovic, Behaviour and Properties of Crystallohydrate 3CdSO4 8H2O During Dehydration, Materials Chemistry and Physics, 12 (1985) 389-396. U. Mioc, N. Petranovic and D. Minic, Identification of the Low-temperature Phase Transition of some Solid Cadmium Crystallohydrates, Thermochimica Acta, 84 (1985) 239-246. D. Minic, M. Šušic, Lj. Atanasoska and U. Mioc, Protonic Conductivity of Solid Potassium Dihydropyroantimonate, Solid State Ionics, 14 (1984) 117-122. M. Šušic and D. Minic, Electrochemical Behaviour of Solid K2H2Sb2O7 4H2O, J.Serb.Chem. Soc.49(5) (1984) 251-257. M. Šušic, D. Minic and U. Mioc, Electrical and Electrochemical Properties of Solid CdBr2 4H2O, Solid State Ionics, 6 (1982) 139-143. M. Šušic and D. Minic, Protonic Conductivity of Solid UO2HPO4 H2O, Solid State Ionics,6 (1982) 327-330. M. Šušic and D. Minic, Protonic Conductivity of some Solid Acid Salts and Crystallohydrates, J.Serb.Chem. Soc.,46(9) (1981) 485-491. M. Šušic and D. Minic, Electric and Electrochemical Properties of Solid LiH2PO4, Solid State Ionics, 2 (1981) 309-314. Protonic Conductivity Solid ionic conductors with protonic charge carriers allow hydrogen ions to move swiftly and easily within crystalline structure. Most common of these materials are acid alkaline phosphates, arsenites and selenites. Since protons are much larger than electrons, they are much more affected by structural changes in the material, even by vibrational and rotational movement of individual functional groups at temperatures near room temperature. Equivalent circuit of electrolytic cell