Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
functional outcomes. In parallel, you will develop new sensors for intracellular potassium concentration leveraging AI based protein design algorithms. Techniques used are Biomolecular NMR spectroscopy and
-
well as community function, to be investigated in parallel. Standard geochemical analyses will be simultaneously performed to investigate interactions between the major nutrient cycles, and their impact on
-
to the re-development of programme plans and implement the development and co-ordination of new academic content. 2. Contribute to course creation, development and delivery, including tutoring support, within
-
programme and support you in your own research, networking and training initiatives. For more information, contact sophie.vlacos@glasgow.ac.uk , PG Convener, English Literature. Study options Study options
-
team. Work towards achieving the Objectives will run in parallel through the project, broadly along the following timeline: Year 1: literature review, desk-based mapping, initial fieldwork mapping and
-
-year programme offered by the universities of Edinburgh, Glasgow, Heriot-Watt and Strathclyde. These longer-term research partnerships are designed to allow participating companies to drive and influence
-
of the largest concentrations of its kind in the UK. We have strong interdisciplinary research links with other subjects at Glasgow; recent collaborations include Psychology, Computing Science, Mathematics and
-
Job Purpose You will join a 5-year, flagship EPSRC Programme Grant, SUSTAIN (sustain-pg.org), developing next-generation sustainable heterogenous E-Textiles as Imperceptible Human Interfaces. Our
-
Job Purpose You will join a 5-year, flagship EPSRC Programme Grant, SUSTAIN (sustain-pg.org), developing next-generation sustainable heterogenous E-Textiles as Imperceptible Human Interfaces. Our
-
Job Purpose You will join a 5-year, flagship EPSRC Programme Grant, SUSTAIN (sustain-pg.org), developing next-generation sustainable heterogenous E-Textiles as Imperceptible Human Interfaces. Our