Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
4-year Computational Project to use state-of-the-art Computational Chemistry techniques to understand structure-property relationships in thermal batteries, and to derive new understanding to guide
-
a collaborative network of experts in the field. In this 3.5-year Computational Project you will build a strong foundation in the use of state-of-the-art Computational Chemistry techniques, and you
-
chemistry, organic synthesis, and programming/reactor automation, which you will use to create new approaches for reaction screening and optimisation. In addition, this work will be conducted in collaboration
-
Cell and gene therapies are poised to transform medicine by providing personalized and effective treatments for patients with chronic or life-threatening diseases. However, the complexity and high
-
complex molecules. This work will expand the toolkit of complexity-generating organic reactions that can be applied in medicinal chemistry. Research in the George Group We have developed many concise
-
Bayliss – [email protected] Project summary Identifying and exploring new biologically-relevant chemical space is a major challenge, central to both chemical biology and medicinal chemistry. Access
-
Class UK Bachelor (Honours) degree or equivalent Subject Area Chemical Engineering, Synthetic Chemistry, Organic Chemistry, Pharmaceutical/Medicinal Chemistry
-
for imaging and therapy in medicine Applications are invited from suitably qualified and motivated candidates for an EPSRC CASE PhD studentship based in Chemistry at the University of Southampton, in
-
at the industry partner, and thereby showcase the potential of physics-based modelling for design of future therapies. This studentship is aligned with the Molecular Sciences for Medicine (MoSMed) Centre
-
future therapies. This studentship is aligned with the Molecular Sciences for Medicine (MoSMed) Centre for Doctoral Training (CDT) , as part of MoSMed2. Number Of Awards 1 Start Date 16th September 2024