Search Results for - Narrowed by: Microfluidics.SirsiDynix Enterprisehttps://catalog.iyte.edu.tr/client/tr_TR/default_tr/default_tr/qf$003dSUBJECT$002509Subject$002509Microfluidics.$002509Microfluidics.$0026rm$003dTEZ$002bKOLEKSIYONU0$00257C$00257C$00257C1$00257C$00257C$00257C0$00257C$00257C$00257Ctrue$0026te$003dILS$0026ps$003d300?2024-04-20T15:35:02ZImage-based bioassays in microfluidic devicesent://SD_ILS/0/SD_ILS:23430402024-04-20T15:35:02Z2024-04-20T15:35:02Zby Doyran, Öykü, author.<br/><a href="https://hdl.handle.net/11147/14229">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Multiphysics modeling of surface charce and pressure-driven elektrokinetic flow in micro/nano scale porous mediaent://SD_ILS/0/SD_ILS:22044512024-04-20T15:35:02Z2024-04-20T15:35:02Zby Şen, Tümcan, author.<br/><a href="https://hdl.handle.net/11147/11102">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Engineering target tissue in lab-on-a-chip devices for predicting homing choices of metastatic cancerent://SD_ILS/0/SD_ILS:22042752024-04-20T15:35:02Z2024-04-20T15:35:02Zby Batı Ayaz, Gizem, author.<br/><a href="https://hdl.handle.net/11147/11094">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Design and development of paper-based microfluidics for point-of-care applicationsent://SD_ILS/0/SD_ILS:22042732024-04-20T15:35:02Z2024-04-20T15:35:02Zby Özefe, Fatih, author.<br/><a href="https://hdl.handle.net/11147/11098">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Mimicking the tumor microenvironment in lab-on-a-chip devicesent://SD_ILS/0/SD_ILS:21339472024-04-20T15:35:02Z2024-04-20T15:35:02Zby Bilgen, Müge, author.<br/><a href="https://hdl.handle.net/11147/7383">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Evaluation of biophysical aspects of cancer using lab-on-a chip devicesent://SD_ILS/0/SD_ILS:21339342024-04-20T15:35:02Z2024-04-20T15:35:02Zby Tahmaz, İsmail, author.<br/><a href="https://hdl.handle.net/11147/7396">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>Method that positions cell-laden or cell-free matrices at defined positions from each other inside a single microfluidic channelent://SD_ILS/0/SD_ILS:4790002024-04-20T15:35:02Z2024-04-20T15:35:02Zby Tarım, Emre, author.<br/><a href="http://hdl.handle.net/11147/4279">Access to Electronic Versiyon.</a><br/>Format: El Yazması<br/>