18 parallel-processing-bioinformatics-"Multiple" PhD positions at University of Birmingham
Sort by
Refine Your Search
-
focus on resonant acoustic mixing (RAM) - a relatively novel and increasingly important class of process equipment attracting growing industrial interest across multiple sectors. At its core, the project
-
processes to drive the selective conversion of captured CO₂ into targeted valuable products, such as sustainable aviation fuels (SAFs), methanol, ethylene, or polymer precursors. This multidisciplinary
-
measurements and integrated into multiple national central facilities, including the Central Laser Facility (CLF), the ISIS Neutron and Muon Source (ISIS), and the Diamond Light Source (Diamond). All three
-
populations to minimise contact between people and limit opportunities for transmission. They encompass multiple measures and behaviours including workplace closures, working from home, closure of non-essential
-
preparedness, and support more equitable and effective future responses. The project will examine how data from multiple sources, including health services, emergency responders, public health agencies and
-
environment and will receive training across multiple disciplines including: • Microbiology and microbiome science • Bioreactor engineering and microbial culture systems • Biomaterials and formulation science
-
There is growing UK and international interest in networked sensing and autonomous collaborative platforms, where multiple airborne sensors co-operate to collect and exploit data. In contrast
-
, including precursor and co-reactant selection, process conditions and doped/multilayer structures to develop films with the desired optical and conductivity properties. The objective will be to develop a
-
the psychosocial processes that drive behavioural tipping points; those moments when drivers begin to engage in maladaptive behaviour (e.g. rule-bending, blocking, queue-jumping). The student will also examine
-
using conventional antimicrobial approaches. A critical early step in S. aureus skin colonisation is adhesion to corneocytes within the stratum corneum. This process is mediated by bacterial cell wall