Biocompatible Electro-Ionic Signal Transduction. Bioelectronics is a new frontier field concerned with integrating electrical control systems and biological entities for applications such as in-situ bio-monitoring and cellular-level control and interrogation of tissue. Electrical signals in biology are mostly carried by ion currents, whilst conventional electronics rely on electrons. This project addresses the critical challenge of bioelectronics; the development of biocompatible electrical inte ....Biocompatible Electro-Ionic Signal Transduction. Bioelectronics is a new frontier field concerned with integrating electrical control systems and biological entities for applications such as in-situ bio-monitoring and cellular-level control and interrogation of tissue. Electrical signals in biology are mostly carried by ion currents, whilst conventional electronics rely on electrons. This project addresses the critical challenge of bioelectronics; the development of biocompatible electrical interfaces capable of transducing ion-and-electron currents. This project will specifically study the complex transport physics of conducting biomacromolecules and develop new interface devices, with an ultimate goal is to create a simple and generic transducing element for cellular-level electrical communication. Read moreRead less
Bioelectronic logic. This project aims to understand ion-electron interactions relevant to bioelectronics, and create transducing interfaces. Bioelectronics is a frontier field which aims to connect biological systems with modern electronics and so create biomedical devices. Transducing ion and electron signals using a biocompatible functional interface is difficult since ion and electron physics are different. By combining individual transducers, this project intends to demonstrate ground-break ....Bioelectronic logic. This project aims to understand ion-electron interactions relevant to bioelectronics, and create transducing interfaces. Bioelectronics is a frontier field which aims to connect biological systems with modern electronics and so create biomedical devices. Transducing ion and electron signals using a biocompatible functional interface is difficult since ion and electron physics are different. By combining individual transducers, this project intends to demonstrate ground-breaking bioelectronic logic capable of interface-level processing. The stretch goal is to test this new logic with a biological neuronal model. The project could deliver new science and interfacing elements to integrate tissue and circuitry, and demonstrate these in a real biological model.Read moreRead less
Fundamental processes in organic photodetectors - towards next generation imaging and sensing systems. Photodetectors are central components in displays, imaging devices and sensors. The project aims to develop the next generation of photodetectors based upon organic semiconductors with the potential to be extremely cheap, recyclable, mechanically flexible and even biocompatible.
Molecular Alignments in Organic Semiconductors. The proposed research project is focus on molecular alignments in solution-based organic semiconductors, which is at the frontier of research in the interdisciplinary field of plastic electronics. Molecular ordering has tremendous potential in enhancing both electrical and optical properties and opens up a way to realise new class of molecular electronic and optoelectronic devices. Significant learning from these devices can be applied to practical ....Molecular Alignments in Organic Semiconductors. The proposed research project is focus on molecular alignments in solution-based organic semiconductors, which is at the frontier of research in the interdisciplinary field of plastic electronics. Molecular ordering has tremendous potential in enhancing both electrical and optical properties and opens up a way to realise new class of molecular electronic and optoelectronic devices. Significant learning from these devices can be applied to practical high performance devices to be extremely cheap, recyclable, and mechanical flexible. Read moreRead less
Light Emitting Transistors: A New Route to Digital Displays and Lasers. This project intends to create new light-emitting display technology with the potential to offer much cheaper, recyclable, and mechanically flexible semiconductors. Organic light-emitting field effect transistors are an emerging class of integrated optoelectronic device with dual functionalities (ie a light emitting and a switch transistor in single device structure). The dual-functioned devices provide a promising pathway t ....Light Emitting Transistors: A New Route to Digital Displays and Lasers. This project intends to create new light-emitting display technology with the potential to offer much cheaper, recyclable, and mechanically flexible semiconductors. Organic light-emitting field effect transistors are an emerging class of integrated optoelectronic device with dual functionalities (ie a light emitting and a switch transistor in single device structure). The dual-functioned devices provide a promising pathway to much more economical display technologies and tunable organic lasers. The principal goal of this project is to develop a new route to achieve simplified display pixels and electrically pumped organic lasers by using organic light-emitting transistors platform with new organic chromophores. The new semiconductors could be easily integrated into a wide range of applications such as telecommunications, biomedical and consumer electronics.Read moreRead less