Multidisciplinary Spin A Centrifugal Microfluidics Project

High-throughput human DNA purification on a centrifugal.
Fundamentals and applications of microfluidics [Third ed.
Centrifugal microfluidics for cell analysis | Request PDF.
Development of a Portable Centrifugal Machine for.
Subhadeep Chakraborti - Project Associate 1 (STARS Project... - LinkedIn.
South African Journal of Science Volume 110 Issue 1/2.
Army research examines new biomaterials to enhance electronics.
Fabrication of Biohybrid Nanofibers by the Green Electrospinning.
Hand-powered centrifugal microfluidic platform inspired by the.
Curriculum Vitae: Prof. Dr. Sithi Vinayakam A/L Muniandy.
Past Projects - TAMU MBIX Website.
Lab on a Chip - Royal Society of Chemistry.
(PDF) Centrifugal Microfluidics for Biomedical Applications.

High-throughput human DNA purification on a centrifugal.

Dr Sithi V Muniandy is currently a Professor of Theoretical Physics at the Physics Department, University of Malaya. He obtained his DPhil in Mathematics (Oxford, UK), MSc in Theoretical Physics and BSc (Hons.) in Physics) (UKM, Malaysia). His research specializations are in statistical physics and quantum physics with research interest.

Fundamentals and applications of microfluidics [Third ed.

Centrifugal Force. In a microfluidic CD, the centrifugal pressure (P centrif) is the main force that propels the liquid from the center toward the rim of the microfluidic CD during spinning.This force can be calculated by the following equation (1). At a certain rotational speed in rpm, fluid starts flowing from the source chamber to the destination chamber. This paper reports a twisting microfluidic method utilising a centrifuge-based fluid extruding system in a planetary centrifuge which simultaneously generates an orbital rotation and an axial spin. In this method, fluid extrusion from a micro-scale capillary to an ‘open-space’ solution or air enables release of the fluid from the capillary-based. A critical review on the microfluidics-enabled soft manufacture (MESM) of materials with well-controlled wettability and their multidisciplinary applications is presented, with the hope of aiding the realization of its full potential. 4 High-Throughput, Off-Chip Microdroplet Generator Enabled by a Spinning Conical Frustum. Shiyang Tang, Kun Wang,.

Centrifugal microfluidics for cell analysis | Request PDF.

Inspired by one of the oldest recognizable toys, the spinning top, here we report a fully hand-powered centrifugal microfluidic platform for the diagnostics of pathogenic bacteria. Assay procedures such as zeolite-based purification of nucleic acids, loop-mediated isothermal amplification (LAMP) and visual detection of fluorescence signals are. This is a multidisciplinary lab with the focus on tissue engineering, microfluidics, lab-on-chip, organ-on-chip, biosensors and high-throughput drug discovery platforms. Research capabilities: On-chip single-cell studies Our lab is focused on studying the effects of mechanical cues on cell response at both the single cell and the high.

Development of a Portable Centrifugal Machine for.

We present an innovative tool for a fully automated N-fold serial dilution with a choice of N = 2, 5, 10 on a centrifugal microfluidic device. Individually addressable, reversible diaphragm valves are integrated on the disc for the automatic control of the fluidic transfer. Two metering zones are designed with three microfluidic chambers with. The Microfluidics research group is dedicated to investigating the underlying physics of micro/nano-scale transport processes. Microfluidics has been the gateway to exploring new and fascinating interfacial phenomena, stemming from the high surface-to-volume ratio of the involved systems.

Subhadeep Chakraborti - Project Associate 1 (STARS Project... - LinkedIn.

Centrifugal microfluidics has evolved into a mature technology. Several major diagnostic companies either have products on the market or are currently evaluating centrifugal microfluidics for.

South African Journal of Science Volume 110 Issue 1/2.

• R&D project team leader in point-of-care diagnostics.... I am leading a project that is a funded by the BioInnovation Institute and aims to a spin-out diagnostic company. Zoetis Denmark - subsidiary of Zoetis Inc... - Design and fabrication of centrifugal microfluidic systems. - Design, fabrication, and integration of electrodes in. Centrifugal microfluidic or lab-on-a-disc platforms have many advantages over other microfluidic systems. These advantages include a minimal amount of instrumentation, the efficient removal of any disturbing bubbles or residual volumes, and inherently available density-based sample transportation and separation. However, this multi-step process requires large and expensive instruments, and takes a long time. In this study, a high-throughput centrifugal microfluidic device was developed for detecting CEA in serum without the need for cumbersome washing steps normally used in immunoreactions.

Army research examines new biomaterials to enhance electronics.

He is currently involved in a number of multidisciplinary projects investigating the design and development of autonomous "smart" implants and patches for drug controlled release and transdermal micro-devices for a range of biomedical and industrial applications. James has both BSc and PhD in Chemistry from the University of Paisley.

Fabrication of Biohybrid Nanofibers by the Green Electrospinning.

4.3.4 Flow in Microfluidic Biochip 4.3.5 Conclusions 4.4 EXTENSIONS OF THE PIV TECHNIQUE 4.4.1 Microfluidic Nanoscope 4.4.2 Microparticle Image Thermometry 4.4.3 Infrared PIV 4.4.4 Particle-Tracking Velocimetry Problems References Chapter 5 Microfluidics for External Flow Control 5.1 VELOCITY AND TURBULENCE MEASUREMENT 5.1.1 Velocity Sensors. Rotational microfluidic platforms have attracted swiftly growing interest over the last decade due to their suitability for integration and automation of sample preparation and detection. Valving is of pivotal importance on these compact "Lab-on-a-Disc" (LoaD) platforms as all liquids are exposed to the same centrifugal field. Measurement of Atmospheric Gases Influencing Climate Change. Multi-Angle Implementation of Atmospheric Correction (MODIS) Modeling, Analysis, Prediction and Projection (NOAA program) or microphysical aerosol properties from polarimetry. Measurement of Aerosols, Radiation and Clouds over the Southern Oceans.

Hand-powered centrifugal microfluidic platform inspired by the.

In order to address this problem, Army researchers partnered with Texas A&M to develop a tool that uses centrifugal force to remove unbound cells. Once researchers place the microfluidic channel on a spin coater device platform, they can precisely control the degree of centrifugal force by simply setting the rotation speed. Lapizco-Encinas, B.H. "Applications of Dielectrophoresis in Microfluidics." Microfluidics in Detection Science: Lab-on-a-chip Technologies. Ed. Labeed, Fatima. London, UK: Royal Chemistry Society, 2014. 192-223. Print. Linte, CA, et al. "Toward Virtual Modeling and Templating for Enhanced Spine Surgery Planning." Spinal Imaging and Image Analysis.

Curriculum Vitae: Prof. Dr. Sithi Vinayakam A/L Muniandy.

The Energy Analysis and Design Project is designed to provide mechanical engineering skills in energy applications, renewable energy, and technologies related to energy which can involve heat transfer, thermodynamics, and fluid mechanics. The project topic can be chosen by the student or can be developed by both the student and faculty sponsor.

Past Projects - TAMU MBIX Website.

Lab on a Chip - Royal Society of Chemistry.

A multidisciplinary, team-taught, introductory course that has been taught for several years at The Evergreen State College is described. Water, the theme of the course, has proven to be a more powerful integrating theme than the original planners of the course anticipated and has involved faculty in chemistry, marine biology, environmental policy, oceanography, and geology to name a few. The.

(PDF) Centrifugal Microfluidics for Biomedical Applications.

Abstract. The centrifugal microfluidic platform has been a focus of academic and industrial research efforts for almost 40 years. Primarily targeting biomedical applications, a range of assays have been adapted on the system; however, the platform has found limited commercial success as a research or clinical tool. Nonetheless, new developments in. 2.3 Low cost centrifugal melt spinning for distributed manufacturing of non-woven media; 2.4 Fluoride removal from water using a 3D printed calcium carbonate filter; 2.5.