• A review of recent advances in water-gas shift catalysis for hydrogen production 

      Ebrahimi, P.; Kumar, A.; Khraisheh, Majeda ( Springer Nature , 2020 , Article)
      The water-gas shift reaction (WGSR) is an intermediate reaction in hydrocarbon reforming processes, considered one of the most important reactions for hydrogen production. Here, water and carbon monoxide molecules react ...
    • Erratum: Antimicrobials: A global alliance for optimizing their rational use in intra-abdominal infections (AGORA). [World J Emerg Surg. 11, (2016) (33)] DOI: 10.1186/s13017-016-0089-y 

      Sartelli, M.; Weber, D. G.; Ruppé, E.; Bassetti, M.; Wright, B. J.; ... more authors ( BioMed Central Ltd. , 2017 , Other)
      The original article [1] contains an error whereby a co-author, Boris Sakakushev has their family name spelt incorrectly as 'Sakakhushev'. The authors would therefore like it known that the correct spelling of the family ...
    • Galvanic exchange as a novel method for carbon nitride supported coag catalyst synthesis for oxygen reduction and carbon dioxide conversion 

      Nazir, Roshan; Kumar, Anand; Ali, Sardar; Saad, Mohammed A.; Al-Marri, Mohammed J. ( MDPI AG , 2019 , Article)
      A bimetallic alloy of CoAg nanoparticles (NPs) on a carbon nitride (CN) surface was synthesized using a galvanic exchange process for the oxygen reduction reaction (ORR) and carbon dioxide electrocatalytic conversion. The ...
    • Thermochemical copper Oxide - Copper sulfate water splitting cycle for solar hydrogen production 

      Bhosale, R.; Dardor, D.; Kumar, A.; Al Momani, F.; Ghosh, U. ( TechConnect , 2016 , Conference Paper)
      In this paper, the solar thermochemical copper oxide - copper sulfate (CO-CS) water splitting cycle is thermodynamically investigated. CO-CS cycle consists of two steps: first step - exothermic oxidation of CuO via water ...