Effect of hydrothermal treatment and LaMnO3 loading on the oxygen reduction activity of chitosan-derived carbon-based gas diffusion electrodes

[1] McLean GF(2002)An assessment of alkaline fuel cell technology Int J Hydrog Energy 27 507-526

[2] Niet T(2014)Recent advances in Zinc-air batteries Chem Soc Rev 43 5257-5275

[3] Prince-Richard S(2006)Oxygen reduction electrodes for electrolysis in chlor-alkali cells Electrochim Acta 51 3346-3350

[4] Djilali N(2011)The particle size effect on the oxygen reduction reaction activity of Pt catalysts: influence of electrolyte and relation to single crystal models J Am Chem Soc 133 17428-17433

[5] Li Y(2010)Improving oxygen reduction reaction activities on carbon-supported Ag nanoparticles in alkaline solutions J Phys Chem C 114 4324-4330

[6] Dai H(2016)Transition metal (Fe Co, Ni, and Mn) oxides for oxygen reduction and evolution bifunctional catalysts in alkaline media Nano Today 11 601-625

[7] Kiros Y(2011)Design principles for oxygen-reduction activity on perovskite oxide catalysts for fuel cells and metal-air batteries Nat Chem 3 546-550

[8] Pirjamali M(2014)Solution synthesis of Cu Chem Mater 26 6226-6232

[9] Bursell M(2016)PdN nanocrystals as ternary metal nitride electrocatalysts for the oxygen reduction reaction Angew Chemie Int Ed 55 15301-15305

[10] Nesselberger M(2016)Copper-organic framework fabricated with CuS nanoparticles: synthesis, electrical conductivity, and electrocatalytic activities for oxygen reduction reaction Nat Commun 7 10942-10242

[1] McLean GF(2002)An assessment of alkaline fuel cell technology Int J Hydrog Energy 27 507-526

[2] Niet T(2014)Recent advances in Zinc-air batteries Chem Soc Rev 43 5257-5275

[3] Prince-Richard S(2006)Oxygen reduction electrodes for electrolysis in chlor-alkali cells Electrochim Acta 51 3346-3350

[4] Djilali N(2011)The particle size effect on the oxygen reduction reaction activity of Pt catalysts: influence of electrolyte and relation to single crystal models J Am Chem Soc 133 17428-17433

[5] Li Y(2010)Improving oxygen reduction reaction activities on carbon-supported Ag nanoparticles in alkaline solutions J Phys Chem C 114 4324-4330

[6] Dai H(2016)Transition metal (Fe Co, Ni, and Mn) oxides for oxygen reduction and evolution bifunctional catalysts in alkaline media Nano Today 11 601-625

[7] Kiros Y(2011)Design principles for oxygen-reduction activity on perovskite oxide catalysts for fuel cells and metal-air batteries Nat Chem 3 546-550

[8] Pirjamali M(2014)Solution synthesis of Cu Chem Mater 26 6226-6232

[9] Bursell M(2016)PdN nanocrystals as ternary metal nitride electrocatalysts for the oxygen reduction reaction Angew Chemie Int Ed 55 15301-15305

[10] Nesselberger M(2016)Copper-organic framework fabricated with CuS nanoparticles: synthesis, electrical conductivity, and electrocatalytic activities for oxygen reduction reaction Nat Commun 7 10942-10242