Notice: This lecture is a research seminar for credit.
December 5th, Wednesday, 2018 14:00-14:30 p.m.
Membrane biofouling is a critical issue in membrane technology since it can greatly degrade the membrane’s performance. Traditional anti-biofouling coatings usually involve the release of metals, biocides, or antibiotics to control bacterial growth. However, the release of these highly toxic compounds is of great concern due to their potential environmental impacts. The graphene oxide (GO) membranes have been well studied for design of antimicrobial surfaces due to its contact-mediated mode of action, which allows for an antimicrobial material that does not deplete over time or release biocides into the environment. However, GO membranes are not able to achieve the high antimicrobial properties that can be widely used for antimicrobial surfaces. Herein, antimicrobial properties of MoS2 membrane are explored in this work in order to achieve higher antimicrobial efficiency to potentially be used for antimicrobial biofouling applications.
Dr. Yingcan Zhao is a postdoctoral researcher in Tsinghua-Berkeley Shenzhen Institute (TBSI). She obtained her Ph.D. degree, majoring in environmental engineering from Purdue University in 2016. Her current research interest include environmental application and mechanism studies of two-dimensional nanomaterials. During her postdoctoral studies, she has got three funding grants as principal investigator and is the Zhujiang Talent Plan (overseas youth program) awardee.
Professors and students of TBSI are welcome to attend. The lecture is also open to the public. For off-campus personnel, please scan the QR code and and fill in your information (name, company, contact number, ID number). The language of the lecture is English.