Researcher interests: Biomolecular self-assembly: design of self-assembled peptides; design of composite materials. Molecular recognition: how proteins interact with inorganic surfaces. Development of antifouling materials.
FACULTY / SCHOOL: Faculty of Science
DEPARTMENT: The Institute of Chemistry
Selected Publications
multiplex optical detection and quantification of dna fragments by metallo peptide assemblies (2019)|
Scientific Reports|
Read more
afm based spin exchange microscopy using chiral molecules (2019)|
Advanced Materials|
Read more
preventing biofilm formation by dairy associated bacteria using peptide coated surfaces (2019)|
Frontiers in Microbiology|
Read more
electrochemical triggered dissolution of hydroxyapatite doxorubicin nanocarriers (2019)|
ACS Applied Bio Materials|
Read more
evaluating efficacy of antimicrobial and antifouling materials for urinary tract medical devices challenges and recommendations (2019)|
Macromolecular Bioscience|
Read more
expanding the functional scope of the fmoc diphenylalanine hydrogelator by introducing a rigidifying and chemically active urea backbone modification (2019)|
Advanced Science|
Read more
nanoscale topography rigidity correlation at the surface of t cells (2019)|
ACS Nano|
Read more
electrically responsive nanopatterned surfaces for triggered delivery of biologically active molecules into cells (2019)|
ACS Applied Materials & Interfaces|
Read more
tailoring the self assembly of a tripeptide for the formation of antimicrobial surfaces (2019)|
Nanoscale|
Read more
forsdat an automated platform for analyzing force spectroscopy measurements (2019)|
Analytical Methods|
Read more
cell wall associated protein tasa provides an initial binding component to extracellular polysaccharides in dual species biofilm (2018)|
Scientific Reports|
Read more
self assembly of a metallo peptide into a drug delivery system using a switch on displacement strategy (2018)|
Journal of Materials Chemistry B|
Read more
nano patterned polyelectrolyte multilayers assembled using block copolymer templates the combined effect of ionic strength and nano confinement (2017)|
Polymer|
Read more