preview all symposia

2023 Spring Meeting

Electronics, magnetics and photonics


Organic and hybrid transistors and electrochemical transistors: materials and devices

Mechanically flexible electronics is a bold vision of the future in-which electronics is omnipresent. It is a vision which includes inexpensive, conformal, biocompatible, and stretchable electronics, embedded into our natural surroundings, and present whenever needed.


This symposium will represent the latest developments in this field of organic and hybrid thin film electronics, including:

  • Design and synthesis of new semiconductors.
  • Novel semiconductor growth and processing strategies.
  • Controlling microstructure and understanding structure-property-function relationships.
  • Design and application of new dopants.
  • Proof of principle demonstrations of new transistor designs.
  • Interface engineering in transistors.
  • Non-planar and mechanically flexible electronics.
  • Spectroscopy of transistor materials.
  • Multi-functional transistors, such as phototransistors and gas sensors.
  • Transistors for non von Neumann computing.
  • Bioelectronic devices for sensing and treatment.
  • Exploiting quantum mechanical phenomena (such as ballistic transport and tunnelling) in transistors.
  • Device physics of thin film transistors.
  • Charge transport models for organic / hybrid semiconductors.
  • Integrated circuits based on organic / hybrid transistors.

Hot topics to be covered by the symposium:

  • Electronic skin
  • Printable electronics
  • Neuromorphic electronics
  • Metal halide perovskite transistors
  • Beyond PEDOT:PSS organic electrochemical transistors
  • Rising Stars Session



232.17 KbDownload

No abstract for this day

No abstract for this day

No abstract for this day

No abstract for this day

No abstract for this day

Symposium organizers
Alexandra F. PATERSONUniversity of Kentucky

Centre for Applied Energy Research #216, 2540 Research Park Drive, Lexington, KY 40511, USA
Björn LUESSEMUniversität Bremen

Institut für Mikrosensoren, -aktoren und -systeme (IMSAS) FB1: Physik/Elektrotechnik, Gebäude NW1 Ost, Otto-Hahn-Allee 1, D-28359 Bremen, Germany
Christian NIELSENQueen Mary University of London

School of Biological and Chemical Sciences, Mile End Road, London E1 4NS, UK
John LABRAM (Main organizer)University College London

Department of Electronic and Electrical Engineering, Torrington Place, London, WC1E 7JE, U.K.