Albert Liberski
University of Edinburgh
8 Papers
60 Citations
Albert Liberski is an academic researcher from University of Edinburgh. The author has contributed to research in topics: Polymer & Self-healing hydrogels. The author has an hindex of 5, co-authored 7 publications. Previous affiliations of Albert Liberski include University of Southampton.
Chat about Author
Papers
Microarrays of over 2000 hydrogels--identification of substrates for cellular trapping and thermally triggered release.
TL;DR: It is demonstrated how this array of new materials could be used for the identification of polymers that allow cellular adherence, proliferation and then mild thermal release, for multiple cell lines, including mouse embryonic stem (mES) cells.
74
Inkjet fabrication of polymer microarrays and grids—solving the evaporation problem
TL;DR: Polymer microarrays, consisting of either discrete features or a matrix of inter-crossed lines were directly fabricated in situ by inkjet printing individual monomers and initiator solutions in organic solvents through a film of oil, thereby allowing the rapid generation of a broad range of co-polymers, while solving the problem of selective monomer evaporation.
35
Screening for polymorphs on polymer microarrays.
Albert Liberski,Graham J. Tizzard,Juan J. Díaz-Mochón,Michael B. Hursthouse,Phillip Milnes,Mark Bradley +5 more
TL;DR: Control over specific factors involved in the crystallization processes such as concentration and temperature were used, but the main variable was the surface upon which crystallization occurred, and the technique described here provides a tool to better understand these types of interactions.
18
Nitrogen influence on suspended vs biofilm growth and resource recovery potential of purple non-sulfur bacteria treating fuel synthesis wastewater
Summaiya R Shaikh,Nahgamana Rashid,G. Mckay,Albert Liberski,Hamish R. Mackey +4 more
TL;DR: In this paper , an enriched PNSB culture was cultivated in two different biofilm photobioreactors (nitrogen sufficient, N+, and nitrogen-deficient, N-) with a piece of woven agricultural shade cloth as biofilm support material.
8
Laser printing mediated cell patterning
TL;DR: An approach for complex cell patterning, using laser printing, is described allowing essentially any cellular image or pattern to be rapidly fabricated.
7