Temperature-responsive polymer “nanobrushes” for production of cosmetics
Students Name: Lishchynskyi Ostap Romanovych
Qualification Level: master (ESP)
Speciality: Chemical Technology and Engineering
Institute: Institute of Chemistry and Chemical Technologies
Mode of Study: full
Academic Year: 2019-2020 н.р.
Language of Defence: ukrainian
Abstract: Poly(n-butyl methacrylate) (PBMA) or poly(n-butyl acrylate) (PBA)-grafted brush coatings attached to glass were successfully prepared using atom-transfer radical polymerization “from the surface”. The thicknesses and composition of the PBMA and PBA coatings were examined using ellipsometry and time-of-flight secondary ion mass spectrometry (ToF-SIMS), respectively. For PBMA, the glasstransition temperature constitutes a range close to the physiological limit, which is in contrast to PBA, where the glass-transition temperature is around ?55 °C. Atomic force microscopy studies at different temperatures suggest a strong morphological transformation for PBMA coatings, in contrast to PBA, where such essential changes in the surface morphology are absent. Besides, for PBMA coatings, protein adsorption depicts a strong temperature dependence. The PBMA grafted coatings of thickness equal to 86 nm and 43 nm as well as control glass substrates were used as substrates for culturing a urinary bladder cancer HTB-5 cell line. After 144 h of culturing, a well-developed monocellular layer may be observed on the PBMA coating of thickness equal to 86 nm. In turn, the cells incubated on thinner (43 nm) PBMA coatings as well as on a control glass sample only start to form a confluent layer. Keywords: stimuli-responsive polymer coatings; grafted polymer brushes; glass transition temperature; wettability; orientation of the proteins; cells.