Search Results - "WIJAYASINGHE, ATHULA"

Investigation of MgTiO3 as an anode material for rechargeable Li-ion batteries by Thushan Pathirana, Niroshan Karunarathne, Athula Wijayasinghe

“…Magnesium Titanate (MgTiO3) is a common and commercially available dielectric material used in electronics applications. The potential of using MgTiO3 as an…”
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Synthesis of Li (Ni1/3Mn1/3Co1/3) O2 by Glycine Nitrate combustion process by T. H. N. G. Amaraweera, Deshapriya Senarathna, Athula Wijayasinghe

“…Glycine Nitrate Combustion (GNC) method was successfully employed for the synthesis of Li(Ni1/3Mn1/3Co1/3)O2 with powder characteristics appropriate for the…”
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Oxygen evolution reaction of Ti/IrO2–SnO2 electrode: a study by cyclic voltammetry, Tafel lines, EIS and SEM by PATHIRAJA, GAYANI CHATHURIKA, NANAYAKKARA, NADEESHANI, WIJAYASINGHE, ATHULA

“…The electrochemical characteristics towards oxygen evolution reaction of thermally prepared Ti/IrO 2 –SnO 2 electrodes were examined. Two electrodes prepared…”
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Development of cathode materials for lithium ion rechargeable batteries based on the system Li(Ni1/3Mn1/3Co(1/3-x)Mx)O-2, (M = Mg, Fe, Al and x=0.00 to 0.33) by Samarasingha, Pushpaka B., Wijayasinghe, Athula, Behm, Mårten, Dissanayake, Lakshman, Lindbergh, Göran

“…This study was based on developing Li(Ni1/3Mn1/3Co(1/3-x)Mx)O-2, (M = Mg, Fe, Al and x = 0 to 0.33) materials by substituting expensive Co content in this NMC…”
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Synthesis of Li(Ni1/3Mn1/3Co1/3-xBax)O-2 cathode materials for lithium-ion rechargeable battery by glycine-nitrate combustion process by Amaraweera, T. H. N. G., Wijayasinghe, Athula, Mellander, Bengt-Erik

“…This study was based on developing Li(Ni1/3Mn1/3Co1/3-xBax)O-2 (x=0.04, 0.08, 0.11, 0.22, and 0.33) materials by substituting expensive Co with Ba, for the use…”
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Development of cathode materials for lithium ion rechargeable batteries based on the system Li(Ni sub(1/3)Mn sub(1/3)Co sub((1/3-x))M sub(x))O sub(2), (M = Mg, Fe, Al and x = 0.00 to 0.33) by Samarasingha, Pushpaka B, Wijayasinghe, Athula, Behm, Marten, Dissanayake, Lakshman, Lindbergh, Goran

“…This study was based on developing Li(Ni sub(1/3)Mn sub(1/3)Co sub(1/3-x)M sub(x))O sub(2), (M = Mg, Fe, Al and x = 0 to 0.33) materials by substituting…”
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Performance of developed natural vein graphite as the anode material of rechargeable lithium ion batteries by Sasanka Hewathilake, H. P. T., Karunarathne, Niroshan, Wijayasinghe, Athula, Balasooriya, N. W. B., Arof, A. K.

“…Electrochemical performance of natural vein graphite as an anode material for the rechargeable Li-ion battery (LIB) was investigated in this study. Natural…”
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Synthesis of Li(Ni1/3Mn1/3Co1/3-xBax)O2 cathode materials for lithium-ion rechargeable battery by glycine-nitrate combustion process by Amaraweera, T. H. N. G., Wijayasinghe, Athula, Millander, B.-E.

“…This study was based on developing Li(Ni 1/3 Mn 1/3 Co 1/3- x Ba x )O 2 ( x  = 0.04, 0.08, 0.11, 0.22, and 0.33) materials by substituting expensive Co with…”
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Development of cathode materials for lithium ion rechargeable batteries based on the system Li(Ni1/3Mn1/3Co(1/3-x)Mx)O2, (M=Mg, Fe, Al and x=0.00 to 0.33) by Samarasingha, Pushpaka B., Wijayasinghe, Athula, Behm, Mårten, Dissanayake, Lakshman, Lindbergh, Göran

“…This study was based on developing Li(Ni1/3Mn1/3Co1/3-xMx)O2, (M=Mg, Fe, Al and x=0 to 0.33) materials by substituting expensive Co content in this NMC system…”
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LiNi1/3Mn1/3Co1/3O2 synthesized by the Pechini method for the positive electrode in Li-ion batteries : Material characteristics and electrochemical behaviour by SAMARASINGHA, Pushpaka, TRAN-NGUYEN, Diem-Hang, BEHM, Marten, WIJAYASINGHE, Athula

“…The feasibility of the Pechini method for the preparation of LiNi1/3Mn1/3Co1/3O2 with characteristics appropriate for Li-ion battery positive electrodes was…”
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Development of Li(Ni1/3Mn1/3Co1/3-x Na (x) )O-2 cathode materials by synthesizing with glycine nitrate combustion technique for Li-ion rechargeable batteries by Amaraweera, Thng, Wijayasinghe, A., Mellander, Bengt-Erik, Dissanayake, MAKL

“…Glycine nitrate combustion technique was investigated for synthesizing Li(Ni1/3Mn1/3Co1/3-x Na (x) )O-2, x = 0-0.11 based transition metal oxide cathode…”
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Development of Li(Ni1/3Mn1/3Co1/3-x Nax)O2 cathode materials by synthesizing with glycine nitrate combustion technique for Li-ion rechargeable batteries by Amaraweera, T. H. N. G., Wijayasinghe, Athula, Mellander, B.-E., Dissanayake, M. A. K. L.

“…Glycine nitrate combustion technique was investigated for synthesizing Li(Ni 1/3 Mn 1/3 Co 1/3- x Na x )O 2 , x  = 0–0.11 based transition metal oxide cathode…”
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LiNi 1/3Mn 1/3Co 1/3O 2 synthesized by the Pechini method for the positive electrode in Li-ion batteries: Material characteristics and electrochemical behaviour by Samarasingha, Pushpaka, Tran-Nguyen, Diem-Hang, Behm, Mårten, Wijayasinghe, Athula

“…The feasibility of the Pechini method for the preparation of LiNi 1/3Mn 1/3Co 1/3O 2 with characteristics appropriate for Li-ion battery positive electrodes…”
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LiFeO2–LiCoO2–NiO materials for Molten Carbonate Fuel Cell cathodes. Part I: Powder synthesis and material characterization by WIJAYASINGHE, A, BERGMAN, B, LAGERGREN, C

“…Ternary compositions of LiFeO2, LiCoO2 and NiO are expected to posses desirable characteristics for the Molten Carbonate Fuel Cell (MCFC) cathode application…”
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LiFeO 2–LiCoO 2–NiO materials for Molten Carbonate Fuel Cell cathodes. Part I: Powder synthesis and material characterization by Wijayasinghe, Athula, Bergman, Bill, Lagergren, Carina

“…Ternary compositions of LiFeO 2, LiCoO 2 and NiO are expected to posses desirable characteristics for the Molten Carbonate Fuel Cell (MCFC) cathode…”
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LiFeO 2–LiCoO 2–NiO materials for Molten Carbonate Fuel Cell cathodes. Part II. Fabrication and characterization of porous gas diffusion cathodes by Wijayasinghe, Athula, Bergman, Bill, Lagergren, Carina

“…LiFeO 2–LiCoO 2–NiO ternary materials are considered as more viable alternatives to lithiated NiO, in solving the cathode dissolution problem of the Molten…”
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LiFeO2–LiCoO2–NiO materials for Molten Carbonate Fuel Cell cathodes. Part II. Fabrication and characterization of porous gas diffusion cathodes by WIJAYASINGHE, A, BERGMAN, B, LAGERGREN, C

“…LiFeO2-LiCoO2-NiO ternary materials are considered as more viable alternatives to lithiated NiO, in solving the cathode dissolution problem of the Molten…”
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A study on LiCoO2-rich cathode materials for the MCFC based on the LiCoO2-LiFeO2-NiO ternary system by WIJAYASINGHE, Athula, BERGMAN, Bill, LAGERGREN, Carina

“…A study performed in LiCoO2-rich LiCoO2-LiFeO2-NiO ternary materials for the molten carbonate fuel cell (MCFC) cathodes is reported in this paper…”
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Solubility and electrochemical studies of LiFeO2-LiCoO2-NiO materials for the MCFC cathode application by RINGUEDE, Armelle, WIJAYASINGHE, Athula, ALBIN, Valérie, LAGERGREN, Carina, CASSIR, Michel, BERGMAN, Bill

“…The dissolution of the state-of-the-art lithiated NiO is still considered as one of the main obstacles to the commercialisation of the molten carbonate fuel…”
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A study on LiCoO 2-rich cathode materials for the MCFC based on the LiCoO 2–LiFeO 2–NiO ternary system by Wijayasinghe, Athula, Bergman, Bill, Lagergren, Carina

“…A study performed in LiCoO 2-rich LiCoO 2–LiFeO 2–NiO ternary materials for the molten carbonate fuel cell (MCFC) cathodes is reported in this paper. LiCoO…”
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