Search
-
22nd March 2018 Sol 2000
https://staffblogs.le.ac.uk/mars/2018/03/22/22nd-march-2018-sol-2000/
MSL
-
Meet Lex….: key characters in the fictional world of Adventures with Lex
https://staffblogs.le.ac.uk/licl/2015/02/16/meet-lex-key-characters-in-the-fictional-world-of-adventures-with-lex/
Posted by jbarwick in Law in Children's Lives on February 16, 2015 Lex (and Rex) are key characters in the game we are developing as part of our ESRC-funded project, Law in Children’s Lives .
-
Duke and Duchess of Cambridge, 2018
https://le.ac.uk/about/history/royal/visits/duke-and-duchess-of-cambridge
Their Royal Highnesses The Duke and Duchess of Cambridge visited the University of Leicester on Wednesday 28 November to celebrate the University’s work in the local community and with Leicester City Football Club.
-
31st December 2014 Sol 854
https://staffblogs.le.ac.uk/mars/2014/12/31/31st-december-2014-sol-854/
Posted by jbridges in Mars Science Laboratory Blog on December 31, 2014 We are continuing the Pahrump localities looped drive. MSL is not working full time over the holidays but we had a ‘3-sol’ plan on the 29th December. I was the Geo Science Theme Lead for the day.
-
Advanced Materials Characterisation Techniques
https://le.ac.uk/modules/2026/eg7164
.
-
Advanced Biomedical Signal Processing
https://le.ac.uk/modules/2026/eg7161
.
-
Advanced Biomedical Signal Processing
https://le.ac.uk/modules/2025/eg7161
.
-
Advanced Materials Characterisation Techniques
https://le.ac.uk/modules/2025/eg7164
.
-
Advanced Microanalysis Laboratory
https://le.ac.uk/archaeology/about/laboratories/advanced-microanalysis-lab
The School of Archaeology and Ancient History's microscopy laboratory detailing the range of equipment and techniques used in the lab, these include Scanning Electron Microscopy (SEM) coupled with Energy Dispersive X-ray Spectroscopy (EDS) and X-ray Fluorescence...
-
New drugs to prevent tuberculosis could be developed thanks to this novel cell wall breakthrough
https://le.ac.uk/news/2018/october/3-cell-wall-breakthrough
Hero tuberculosis Mycobacterium tuberculosisis|Research has identified a novel regulatory mechanism, which when deactivated, results in the death of the life-threatening pathogen.