TY - CONF Y1 - 2020/// PB - Institute of Physics Publishing SN - 17578981 A1 - Tarmizi, Z.I. A1 - Ali, R.R. A1 - Nasef, M.M. A1 - Akim, A.M. A1 - Eshak, Z. A1 - Noor, S.M. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85083061382&doi=10.1088%2f1757-899X%2f808%2f1%2f012035&partnerID=40&md5=71a662c843583e2b0907327f670d5754 VL - 808 AV - none N1 - cited By 2; Conference of 8th Conference on Emerging Energy and Process Technology 2019, CONCEPT 2019 ; Conference Date: 27 November 2019 Through 28 November 2019; Conference Code:158796 N2 - This paper describes a fabrication of poly (2-hydroxylethyl methacrylate) poly(HEMA) grafted on polyurethane (PU) film prepared by radiation-induced grafting (RIG) copolymerization method using electron beam irradiation for the first time. This method was well known to be fast technique, clean method without involve any chemical initiator, chemically bond the materials, and at the same time is a sterile technique suitable for further potential of biomedical application. This poly(HEMA) grafted on PU film or called as PU-g-poly(HEMA) films was analysed using Fourier-transform infrared (FTIR), scanning electron microscope (SEM), water contact angle analyser (WCA), platelet adhesion and clotting time measurement. As the results, poly(HEMA) was confirmed successful grafted on PU based on the shifting of the functional group, no significant changes in surface morphology, lowering the water contact angle from 78.28° to 70.02°, nearly no platelet adhesion and no excessive disturbance of the clotting time was observed. This means that PU-g-poly(HEMA) was improved its hydrophilicity, thus significantly reduced the platelet adhesion and maintain the normal range of time taken for blood to clot. Therefore, the present PU-g-poly(HEMA) films not only improved hydrophilicity, however, was also compatible with blood. Thus, it may be potential candidates in the biomedical devices or new biomaterial useful for future tissue engineering fields. © Published under licence by IOP Publishing Ltd. TI - Fabrication and Characterization of PU-g-poly(HEMA) Film for Clotting Time and Platelet Adhesion ID - scholars13320 ER -