Publications by PERG in 2017

SCI journal publications
  1. Effect of polymerization current density of electrodes on the performance of polypyrrole based redox-capacitor.
    W. A. D. S. S. Weerasinghe, K. P. Vidanapathirana, K. S. Perera, C. M. Bandaranayake, J. Nat. Sci. Foundation, Sri Lanka, 45 (1) (2017)73-77.
  2. Fabrication and evaluation of an all solid redox capacitor with an iodine based gel polymer electrolyte.
    C.M Bandaranayake, W.A.D.S.S Weerasinghe, K.S Perera and K.P Vidanapathirana, Nat. Sci. Foundation, Sri Lanka45(4)(2017)355-360
  3. Investigation of a Pseudo Capacitor with Polyacrylonitrile based Gel Polymer Electrolyte
    NemindaHarankahawa, SandarangaWeerasinghe, Kamal Vidanapathirana and KumuduPerera, J. Electrochem. Sci. Technol. 8/2(2017)107-114
  4. PEO based nano composite polymer electrolyte for redox capacitor. K. S. Perera, K. P. Vidanapathirana, B. Jayamaha, L. Wewagama, M.A.K.L. Dissanayake, G.K.R. Senadheera, K. Vignarooban, Journal of Solid State Electrochemistry, 21/12 (2017) 3459-3465
  5. Use of gel polymer electrolytes to integrate photoelectric conversion and energy storage
    N. Harankahawa, K. Perera, K. Vidanapathirana, Journal of Energy Storage, 13 (2017) 96–102
  6. Impedance Spectroscopy, DC polarization, XRD and SEM studies on an ionic liquid based gel polymer electrolyte to be used for dye sensitized solar cells
    K. Perera and K. Vidanapathirana, Material Discovery, 7(2017) 30-33
Refereed journal publications
  1. Effect of monomer concentration on the performance of Polyaniline based redox capacitors. W.A.D.S.S. Weerasinghe, K.P. Vidanapathirana and Kumudu S. Perera. Ceylon Journal of Science,46(3) (2017) 31-37
  2. Effect of the gel polymer electrolyte conductivity on the performance of Zn rechargeable cell. Kumudu S. Perera and  K.P. Vidanapathirana, Ceylon Journal of Science,46(4)(2017)15-19
Conference proceedings
  1. Energy storage devices based on conducting polymer Poly3-4ethylenedioxythiophene, M.G.K. Karunarathne, K.P. Vidanapathirana, Proc. Annual Symposium on Research & Industrial Training, Dept. of Electronics, Wayamba University of Sri Lanka,4(2017)263-270
  2. Polyaniline (PANI) based Electrodes for Redox Capacitiors: Effect of Aniline Concentration on the performance,
    W. A. D. S. S. Weerasinghe, K.P. Vidanapathirana and K. S.Perera, Proc. Wayamba University Research Congress,(2017)5-6
  3. Empolying Gel Polymer Electrolytes for Dye SentisizedPhotoelectrochemical Devices,
    G.A. K. S. Perera, K.P. Vidanapathirana Proc. Wayamba University Research Congress,(2017)1-
  4. Zn rechargeable cell with poly3-4ethylenedioxythiphene cathode
    W.A.D.S.S. Weerasinghe, M.G.K. Karunarathne, K.S. Perera, K.P. Vidanapathirana , Proc. International conference on funtional materials and devices, Centre for Ionics at University of Malaya,Melaka, Malaysia (2017) 81
  5. Performance of a poly 3, 4-ethylenedioxythiophene based redox capacitor
    W.A.D.S.S. Weerasinghe, K.P. Vidanapathirana, K.S. Perera, Proc. PGIS Research Congress, University of Peradeniya, (2017)129
  6. Durability of a redox capacitor based on a gel polymer electrolyte
    W.A.D.S.S. Weerasinghe, K.P. Vidanapathirana, K.S. Perera, Proc. PGIS Research Congress, University of Peradeniya, (2017)126
  7. Fabrication and evaluation of a Sri Lankan graphite based rechargeable cell
    W.A.D.S.S. Weerasinghe, G.A.K. S. Perera, K.P. Vidanapathirana, Proc. 10th International Research Conference of Kotalawala Defence University, (2017)31