Savas Tasoglu

TL;DR: This study demonstrated a cost- and time-effective method for high-throughput, easily accessible fabrication of paper-based microfluidics using a desktop pen plotter integrated with a custom-designed multipen holder and proposed an ink supply system connected to commercial technical pens to allow continuous flow of the ink, thereby increasing the printing capacity of the system.

TL;DR: A compact magnetic levitation platform compatible with a smart-phone to separate micro-objects and estimate the density of the sample based on its levitation height is developed, to develop a technique for precise and accurate density estimation.

TL;DR: In this paper, a self-contained device is developed to levitate particles of interest, image them using an embedded low-cost optical system and a camera module, and process the captured images in order to estimate the densities of the particles.

TL;DR: A simple yet powerful approach to trap a single oocyte and induce its deformation through a constricted microfluidic channel is developed and can be useful to investigate underlying mechanisms of oocyte deformation exposed to well-controlled shear stresses in microfluidity channels, which enables a broad range of applications for reproductive medicine.

TL;DR: In this article, a smart-phone attachable continuous flow magnetic focusing device is presented for reproducible, real-time detection and sorting of particles in high-volume samples based on their volumetric mass density.