-
semiconductors for renewable energy generation”. This collaborative project will tackle the complex array of exciting fundamental science arising in “soft” inorganic and hybrid semiconductors, seeking to develop
-
array of proteins involved in numerous cellular processes. This complexity can make it challenging to pinpoint disease-relevant changes. By narrowing the focus to the presynaptic proteome, we can reduce
-
in Germany, to create powerful THz receivers. This outcome will not only create a step change in signal-to-noise performance but will allow scaling of the sensors to create multielement arrays
-
. Laboratory work will involve the use of electrophysiological, transgenic and behavioural techniques including multielectrode array electrophysiology, activity monitoring and behavioural testing. Experience in
-
, integration and interpretation (e.g. high-throughput sequencing, proteomics, array-based technologies, etc.), preferably in human diseases. Applications for this vacancy are to be made online and you will be