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Examining the quality of scientific publications in…
https://www.bath.ac.uk/projects/examining-the-quality-of-scientific-pu…People. CHI2 affiliated researchers working on this project.
The IPACS Project
https://www.bath.ac.uk/projects/the-ipacs-project/People. CHI2 affiliated researchers working on this project.
Results that match 1 of 2 words
Interfaces
https://www.bath.ac.uk/projects/interfaces/Open-ended. Investigating new solvents, nanomaterials and states of matter between liquid and solids. ... We investigate how material and molecules interact with each other to create new solvents, nanomaterials (nanoparticles, emulsions, micelles), and
Quantum devices
https://www.bath.ac.uk/projects/quantum-devices/Quantum devices. We make, investigate and model electronic devices at length scales small enough that their behaviour is quantum in nature, leading to new device concepts.
PathSimR
https://www.bath.ac.uk/projects/pathsimr/Developing and deploying a versatile tool for modelling pathway capacity in NHS organisations
Biomedical nanoscience
https://www.bath.ac.uk/projects/biomedical-nanoscience/Biomedical nanoscience. Nanoscience has many biomedical applications; we are working on new pacemaker concepts, wearable glucose monitors, and new forms of drug delivery.
Developing online problem-based learning in a new blended …
https://www.bath.ac.uk/projects/developing-online-problem-based-learni…Developing online problem-based learning in a new blended Master's programme. This learning and teaching innovation project was funded by the Teaching Development Fund in 2019/20.
Instrumentation
https://www.bath.ac.uk/projects/instrumentation/The work at Bath aims to develop new multi-core fibres, and components called "photonic lanterns" made from them, to make improved and simplified high-resolution spectrographs.
Speciality optical fibre
https://www.bath.ac.uk/projects/speciality-optical-fibre/The resulting high intensities produce a large nonlinear response in which light generates new wavelengths or colours as it propagates. ... By filling the hollow core with gas or vapour, we can study light-matter interactions and build new types of
Milner Genomics Centre
https://www.bath.ac.uk/projects/milner-genomics-centre/1st June 2016. Phase 2: New MiSeq system. The Milner Genomics Centre is taking advantage of recent advances in Illumina's sequencing chemistry and buys a new MiSeq system to improve ... The Milner Genomics Centre purchases new equipment for automated