Avila, Jocasta; Corsini, Chiara; Correa, Cintia M.; Rosenthal, Martin; 140865; Padua, Agilio; Costa Gomes, Margarida;
This Perspective points toward pathways to prepare porous ionic liquids using easily accessible materials, aiming for reduced environmental impact. We demonstrate that suspensions of porous solids are stable in eutectic mixtures, underscoring their potential for the preparation of porous ionic liquids. Porous ionic liquids retain the wide electroch...
Xie, Sijie; 135110; Zhou, Zhenyu; Zhang, Xuan; 100996; Fransaer, Jan; 2698;
Metal-organic framework (MOF) thin films could be used for ion/molecular sieving, sensing, catalysis, and energy storage, but thus far no large-scale applications are known. One of the reasons is the lack of convenient and controllable fabrication methods. This work reviews the cathodic deposition of MOF films, which has advantages (e.g., simple op...
KIM, SEONYOUNG HWANG, KEON HA PARK, HYEONG GYU KWAK, JEASUNG LEE, HYUK KIM, HYUNWOO
Due to its superior ability in controlling pharmaceutical activity, the installation of difluoromethyl (CF2H) functionality into organic molecules has been an area of intensive research. In this context, difluoromethylation of C−C π bonds mediated by a CF2H radical have been pursued as a central strategy to grant access to difluoromethylated hydroc...
Folgueiras-Amador, AA Teuten, AE Salam-Perez, M Pearce, JE Denuault, G Pletcher, D Parsons, PJ Harrowven, DC Brown, RCD
Electro-reductive radical cyclisation of aryl halides affords the corresponding hetero- and carbo-cycles in an undivided flow reactor equipped with steel and carbon electrodes using an organic mediator. A dissolving metal anode is not needed, and the mediator can be employed in a sub-stoichiometric amount (0.05 equiv), increasing the practical util...
Zhang, Xuan; 100996; Wan, Kai; 121249; Subramanian, Palaniappan; 121205; Xu, Maowen; Luo, Jiangshui; 78346; Fransaer, Jan; 2698;
status: published
Andersen, Suzanne Zamany Čolić, Viktor Yang, Sungeun Schwalbe, Jay A. Nielander, Adam C. McEnaney, Joshua M. Enemark-Rasmussen, Kasper Baker, Jon G. Singh, Aayush R. Rohr, Brian A.
...
The electrochemical synthesis of ammonia from nitrogen under mild conditions and using renewable electricity is in principle an attractive alternative1-4 to the demanding, energy-intense Haber-Bosch process, which dominates industrial ammonia production. However, the electrochemical alternative faces considerable scientific and technical challenges...
AGASTI, A MALLICK, S BHARGAVA, P
Understanding Cu-Zn-Sn co-electrodeposition is important from the view point of developing high quality CZTS (Cu2ZnSnS4) absorber layer for thin film solar cells. One of the major issue during electrodeposition is hydrogen evolution which can severely affect the growth of the depositing film. In the present study, the hydrogen evolution is controll...
Arends, Jan Patil, Sunil Anil Roume, Hugo Rabaey, Korneel
Electricity-driven bioproduction processes such as microbial electrosynthesis enable converting CO2 and organic feedstocks into target chemicals with minimal addition of external chemicals. Bioelectrochemical CO2 conversion to (mainly) acetate has mostly been demonstrated in batch processes. Continuous reactor operation and the operational paramete...
Patil, Sunil A. Gildemyn, Sylvia Pant, Deepak Zengler, Karsten Logan, Bruce E. Rabaey, Korneel
Microbial electrosynthesis (MES) is a process that uses electricity as an energy source for driving the production of chemicals and fuels using microorganisms and CO2 or organics as carbon sources. The development of this highly interdisciplinary technology on the interface between biotechnology and electrochemistry requires knowledge and expertise...
Zhou, Mi Freguia, Stefano Dennis, Paul G Keller, Jürg Rabaey, Korneel
In a microbial bioelectrochemical system (BES), organic substrate such as glycerol can be reductively converted to 1,3-propanediol (1,3-PDO) by a mixed population biofilm growing on the cathode. Here, we show that 1,3-PDO yields positively correlated to the electrons supplied, increasing from 0.27 +/- 0.13 to 0.57 +/- 0.09mol PDOmol(-1) glycerol wh...