Search
-
New edition of book detailing the architecture of University of Leicester published
https://le.ac.uk/news/2017/august/book-detailing-the-architecture-of-university-of-leicester-published-in-new-edition
The architectural histories of the University of Leicester and De Montfort University are detailed side by side in a new book by a respected architecture expert and graduate of Leicester.
-
Cancer scientists take part in Tough Mudder
https://le.ac.uk/news/2016/may/cancer-scientists-take-part-in-tough-mudder
A team of scientists is all set to get down and dirty this weekend – all in the aid of charity. Scientists based at the Cancer Research UK Leicester Centre, who are working on early detection of different cancers, will take part in their first Tough Mudder on 14 May.
-
3rd April 2015 Sol 945
https://staffblogs.le.ac.uk/mars/2015/04/03/3rd-april-2015-sol-945/
Posted by jbridges in Mars Science Laboratory Blog on April 3, 2015 The heavy noble gases argon, krypton and xenon are known for their non-reactive nature and on Earth used for many applications where a gas is needed to protect a surface from the reactive species in...
-
Andrew Dunn: Page 135
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/135/
Academic Librarian.
-
Andrew Dunn: Page 94
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/94/
Academic Librarian.
-
Andrew Dunn: Page 144
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/144/
Academic Librarian.
-
Andrew Dunn: Page 38
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/38/
Academic Librarian.
-
Andrew Dunn: Page 71
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/71/
Academic Librarian.
-
Andrew Dunn: Page 138
https://staffblogs.le.ac.uk/socscilibrarians/author/andrew_dunn/page/138/
Academic Librarian.
-
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.