Active-matrix digital microfluidics design for field programmable high-throughput digitalized liquid handling
Dongping Wang, Kai Jin, Jiajian Ji, Chenxuan Hu, Mao‐Hua Du, Yacine Belgaid, Subao Shi, Jiahao Li, Siyi Hu, Arokia Nathan, Jun Yu, Hanbin Ma
Abstract
Digital liquid sample handling is an enabling tool for cutting-edge life-sciences research. We present here an active-matrix thin-film transistor (TFT) based digital microfluidics system, referred to as Field Programmable Droplet Array (FPDA). The system contains 256 × 256 pixels in an active area of 10.65 cm 2 , which can manipulate thousands of addressable liquid droplets simultaneously. By leveraging a novel TFT device and circuits design solution, we manage to programmatically manipulate droplets at single-pixel level. The minimum achievable droplet volume is around 0.5 nL, which is two orders of magnitude smaller than the smallest droplet ever reported on active-matrix digital microfluidics. The movement of droplets can be either pre-programmed or controlled in real-time. The FPDA system shows great potential of the ubiquitous thin-film electronics technology in digital liquid handling. These efforts will make it possible to create a true programmable lab-on-a-chip device to enable great advances in life science research.