Nasani Narendar
AuthID: R-000-Z64
21
TITLE: Fabrication and electrochemical performance of a stable, anode supported thin BaCe0.4Zr0.4Y0.2O3-delta electrolyte Protonic Ceramic Fuel Cell Full Text
AUTHORS: Narendar Nasani; Devaraj Ramasamy; Sergey Mikhalev; Andrei V Kovalevsky; Duncan P Fagg;
PUBLISHED: 2015, SOURCE: JOURNAL OF POWER SOURCES, VOLUME: 278
AUTHORS: Narendar Nasani; Devaraj Ramasamy; Sergey Mikhalev; Andrei V Kovalevsky; Duncan P Fagg;
PUBLISHED: 2015, SOURCE: JOURNAL OF POWER SOURCES, VOLUME: 278
22
TITLE: Modeling of electrical conductivity in the proton conductor Ba0.85K0.15ZrO3-delta Full Text
AUTHORS: Sherafat, Z; Paydar, MH; Antunes, I; Nasani, N; Brandao, AD; Fagg, DP;
PUBLISHED: 2015, SOURCE: ELECTROCHIMICA ACTA, VOLUME: 165
AUTHORS: Sherafat, Z; Paydar, MH; Antunes, I; Nasani, N; Brandao, AD; Fagg, DP;
PUBLISHED: 2015, SOURCE: ELECTROCHIMICA ACTA, VOLUME: 165
23
TITLE: Enhancing electrochemical performance by control of transport properties in buffer layers - solid oxide fuel/electrolyser cells
AUTHORS: Devaraj Ramasamy; Narendar Nasani; Ana D Brandao; Domingo P Perez Coll; Duncan P Fagg;
PUBLISHED: 2015, SOURCE: PHYSICAL CHEMISTRY CHEMICAL PHYSICS, VOLUME: 17, ISSUE: 17
AUTHORS: Devaraj Ramasamy; Narendar Nasani; Ana D Brandao; Domingo P Perez Coll; Duncan P Fagg;
PUBLISHED: 2015, SOURCE: PHYSICAL CHEMISTRY CHEMICAL PHYSICS, VOLUME: 17, ISSUE: 17
24
TITLE: In-situ redox cycling behaviour of Ni-BaZr0.85Y0.15O3-delta cermet anodes for Protonic Ceramic Fuel Cells Full Text
AUTHORS: Narendar Nasani; Zhu Jun Wang; Marc G Willinger; Aleksey A Yaremchenko; Duncan P Fagg;
PUBLISHED: 2014, SOURCE: INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, VOLUME: 39, ISSUE: 34
AUTHORS: Narendar Nasani; Zhu Jun Wang; Marc G Willinger; Aleksey A Yaremchenko; Duncan P Fagg;
PUBLISHED: 2014, SOURCE: INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, VOLUME: 39, ISSUE: 34
25
TITLE: The impact of porosity, pH<inf>2</inf> and pH<inf>2</inf>O on the polarisation resistance of Ni-BaZr<inf>0.85</inf>Y<inf>0.15</inf>O<inf>3-δ</inf> cermet anodes for Protonic Ceramic Fuel Cells (PCFCs)
AUTHORS: Nasani, N; Ramasamy, D; Brandao, AD; Yaremchenko, AA; Fagg, DP;
PUBLISHED: 2014, SOURCE: International Journal of Hydrogen Energy, VOLUME: 39, ISSUE: 36
AUTHORS: Nasani, N; Ramasamy, D; Brandao, AD; Yaremchenko, AA; Fagg, DP;
PUBLISHED: 2014, SOURCE: International Journal of Hydrogen Energy, VOLUME: 39, ISSUE: 36
INDEXED IN: Scopus
26
TITLE: Novel nitrate-free acetate-H2O2 combustion synthesis
AUTHORS: Nasani, N; Fagg, DP;
PUBLISHED: 2014, SOURCE: Combustion: Types of Reactions, Fundamental Processes and Advanced Technologies
AUTHORS: Nasani, N; Fagg, DP;
PUBLISHED: 2014, SOURCE: Combustion: Types of Reactions, Fundamental Processes and Advanced Technologies
INDEXED IN: Scopus
27
TITLE: The importance of phase purity in Ni-BaZr0.85Y0.15O3-delta cermet anodes - novel nitrate-free combustion route and electrochemical study
AUTHORS: Nasani Narendar; Glenn C Mather; Paulo A N Dias; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: RSC ADVANCES, VOLUME: 3, ISSUE: 3
AUTHORS: Nasani Narendar; Glenn C Mather; Paulo A N Dias; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: RSC ADVANCES, VOLUME: 3, ISSUE: 3
28
TITLE: Non-aqueous stabilized suspensions of BaZr0.85Y0.15O3-delta proton conducting electrolyte powders for thin film preparation Full Text
AUTHORS: Paulo A N Dias; Narendar Nasani; Tommy S Horozov; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, VOLUME: 33, ISSUE: 10
AUTHORS: Paulo A N Dias; Narendar Nasani; Tommy S Horozov; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, VOLUME: 33, ISSUE: 10
29
TITLE: Synthesis and conductivity of Ba(Ce,Zr,Y)O3-delta electrolytes for PCFCs by new nitrate-free combustion method Full Text
AUTHORS: Narendar Nasani; Paulo A N Dias; Jorge A Saraiva ; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, VOLUME: 38, ISSUE: 20
AUTHORS: Narendar Nasani; Paulo A N Dias; Jorge A Saraiva ; Duncan P Fagg ;
PUBLISHED: 2013, SOURCE: INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, VOLUME: 38, ISSUE: 20