Device Engineering

John Morton

Prof Morton's research takes spins of electrons and nuclei in a range of nano-scale materials and devices to develop a new generation of quantum technologies, including quantum sensors, quantum memories, and quantum computers. Prof Morton is the Director of the UCL Quantum Science and Technology Institute.


In a collaboration with Waseda University in Tokyo, LCN researchers have grown highly boron doped diamond layers only 1nm in thick
In a collaborative work between the LCN, University of York and the National Renewable Energy Laboratory, scientists have discover
Complementary metal oxide semiconductor technology using paper Complementary metal oxide semiconductor (CMOS) circuit based on n-t
A breakthrough in controlling defects could lead to new generation of electronic devices Reporting in Nature Materials this week,.
Researchers from the London Centre for Nanotechnology at Imperial College report the magnetic field detection properties.
Organic and polymer light-emitting diodes (LEDs) have received much attention in recent years for application in displays and ligh
We are familiar with polymer materials in all aspects of our everyday lives - but in future, polymers are set to be important mate
A group of researchers in the Department of Electronic and Electrical Engineering at UCL and the London Centre for Nanotechnology

Sanjiv Sharma

Research in the group falls broadly into the area of bioanalysis with a particular focus in the following areas:Biosensors: We are producing sensors based on both optical and electrochemical signal transduction schemes for applications in personal healthcare, bioreactor monitoring and clinical diagnostics. These biosensors often exploit engineered proteins.Protein Engineering: Although proteins have been widely used in bioanalysis many of their properties are not optimally suited to this application.