Improved antifouling properties of photobioreactors by surface grafted sulfobetaine polymers Dongwei Wang Xia Wu Lixia Long Xubo Yuan Qinghua Zhang Shengzhang Xue Shumei Wen Chenghu Yan Jianming Wang Wei Cong 10.6084/m9.figshare.5640130 https://tandf.figshare.com/articles/journal_contribution/Improved_antifouling_properties_of_photobioreactors_by_surface_grafted_sulfobetaine_polymers/5640130 <p>To improve the antifouling (AF) properties of photobioreactors (PBR) for microalgal cultivation, using trihydroxymethyl aminomethane (tris) as the linking agent, a series of polyethylene (PE) films grafted with sulfobetaine (PE-SBMA) with grafting density ranging from 23.11 to 112 μg cm<sup>−2</sup> were prepared through surface-initiated atom transfer radical polymerization (SI-ATRP). It was found that the contact angle of PE-SBMA films decreased with the increase in the grafting density. When the grafting density was 101.33 μg cm<sup>−2</sup>, it reached 67.27°. Compared with the PE film, the adsorption of protein on the PE-SBMA film decreased by 79.84% and the total weight of solid and absorbed microalgae decreased by 54.58 and 81.69%, respectively. Moreover, the transmittance of PE-SBMA film recovered to 86.03% of the initial value after cleaning, while that of the PE film recovered to only 47.27%. The results demonstrate that the AF properties of PE films were greatly improved on polySBMA-grafted surfaces.</p> 2017-11-28 10:12:31 Microalgal cultivation photobioreactor sulfobetaine biofouling polyethylene film