AVS 62nd International Symposium & Exhibition
    Plasma Science and Technology Friday Sessions
       Session PS+SE-FrM

Paper PS+SE-FrM11
XPS to Investigating Spatial and Temporal Modification of Polymeric Platforms for Micro-Fluidic Devices

Friday, October 23, 2015, 11:40 am, Room 210A

Session: Atmospheric Pressure Plasma Processing II
Presenter: Marshal Dhayal, CSIR Centre for Cellular and Molecular Biology (CCMB), India
Correspondent: Click to Email
Spatial and temporal changes in surface chemical composition silicon (Si), carbon (C) and oxygen (O) of polydimethyl siloxane surfaces before and after plasma treatment were estimated from quantitative elemental analysis of X-ray photoelectron spectroscopy (XPS) wide scan spectra. Theoretical ratio of Si/C/O in repeating unit (–[Si-(CH3)2-O]n–) of polydimethyl siloxane were calculated and were compared to experimentally obtained ratio for Si/C/O obtained from untreated and plasma treated surfaces used for micro-fluidic devices. The contact angle measurements have shown that surfaces treated by air plasma can recover up to about 50% of its hydrophobic nature in less than 30 min of air exposure. These plasma modified surfaces were functionalized with poly(ethylene glycol) (PEG) silane to obtained polydimethyl siloxane surface as hydrophilic in nature for micro fluidic application. The surface chemistry of PEG-functionalized polydimethyl siloxane substrate has been studied using XPS. These different types of surfaces were used fabricate micro-fluidic devices and effects of surface nature of micro channels on fluid velocity were observed in PEG grafted micro channel in polydimethyl siloxane base micro fluidic devices. The effect of different pH of the fluids on the fluid velocity in polydimethyl siloxane -based micro channel was also studied.