Poly(N-isopropylacrylamide-co-N-tert-butylacrylamide)-graph-polydopamine as a Thermoresponsive Surface with Adjustable Transformation Temperature for Efficient Microalgal Cell Adhesion and Detachment

Abstract: Microalgal biofilm is one of the most promising candidates for renewable feedstock accumulation and carbon neutralization. To synergistically enhance cell adhesion during the microalgal biofilm formation stage and detachment during the harvesting stage, a surface possessing controllable properties is expected. However, the enhancement of the adhesion capacity of a conventional N-isopropylacrylamide (NIPAM) coating to microalgal cells only happens when the temperature reaches its lower critical solution tempera… Show more

“…The Incorporation of thermo-sensitive groups in polysaccharides creates new "smart" materials with thermo-responsive behavior [27][28][29]. Interestingly, such materials can present thermo-induced sol-to-gel transition properties, rendering them ideal candidates for use as potential injectable hydrogels [30].…”

A Remarkable Impact of pH on the Thermo-Responsive Properties of Alginate-Based Composite Hydrogels Incorporating P2VP-PEO Micellar Nanoparticles

“…The Incorporation of thermo-sensitive groups in polysaccharides creates new "smart" materials with thermo-responsive behavior [27][28][29]. Interestingly, such materials can present thermo-induced sol-to-gel transition properties, rendering them ideal candidates for use as potential injectable hydrogels [30].…”

A Remarkable Impact of pH on the Thermo-Responsive Properties of Alginate-Based Composite Hydrogels Incorporating P2VP-PEO Micellar Nanoparticles

Probing the physicochemical interactions between thermo-thickening polymers and clay fluids for improve rheological performance

Temperature-controlled microalgal biofilm detachment and harvesting assisted by ultrasonic from 3D porous substrates grafted with thermosensitive gels