Electroactive biofilms generated by electrochemically active microorganisms have many potential applications in bioenergy and chemicals production. This review assesses the effects of microbiological ...

Electroactive polymers (EAPs) respond to electrical stimulation with large deformations. They are dynamic actuators which have attracted attention from an interdisciplinary audience of engineers and ...

Biodegradable structures developed by Professor Samuel Stupp could revolutionize energy, information technologies, and advanced medicine.

Abstract: In this paper, the coupling between a finite deformation and an electric field is examined with particular reference to the propagation of small amplitude waves in a non-linear ...

Conventional robotics using rigid structural elements and high-torque motors have enabled great progress in automated assembly and manufacturing. An increasing number of robots need to interact safely ...

Scientists from the South China University of Technology have built an aqueous redox flow battery with a positive electrolyte made of the electroactive organic molecule called TEMPO, which they ...

Using MHCscan, we scanned ~60,000 bacterial and 2,000 archaeal assemblies, and identify a diversity of MHCs, many of which represent enzymes with no known function, and many found within organisms not ...

Abstract: Electroactive bacteria possess unique biological machinery for transporting electrons across biological membranes and over micron distances in a process termed extracellular electron ...

His research is developed within the Electrodynamic—GREM3 research team, in the field of electromechanical energy conversion. His research interests include the development of piezoelectric motors for ...