Veryst’s modeling and simulation work was featured in a COMSOL blog titled “Preventing Bubble Entrapment in Microfluidic Devices Using Simulation.” The blog describes how Veryst modeled different microchannel geometries and simulated bubble movement, providing insight that can be used to improve the design of microfluidic devices.
Veryst is pleased to welcome a new member to its engineering team! Dr. Matthew Hancock, has an extensive background in fluid mechanics and model-based engineering, including microfluidics, wetting of textured surfaces, surface tension effects, heat/mass transfer, solid-fluid interaction, wave motion, and multiscale analysis.
Veryst Engineering is proud to have been a Gold Sponsor of COMSOL’s premier event: COMSOL Conference 2013 Boston.
Dr. Matthew Hancock offered a webinar addressing modeling and design processes for lab-on-a-chip and organ-on-a-chip devices and other microfluidic systems. He discussed simulation methods and related tools and demonstrated how to set up an example model of a micropump with fully (two-way) coupled fluid-structure interaction.
FluidicMEMS is an informal gathering of people from academia, medicine, industry, and business to meet and explore how microfluidic and BioMEMS technology will impact healthcare, research, and beyond.
FluidicMEMS is an informal gathering of people from academia, medicine, industry, and business to meet and explore how microfluidic and BioMEMS technology will impact healthcare, research, and beyond.
Dr. Matthew Hancock, Senior Engineer, presented "Modeling and Simulation of Microfluidic Devices" at the BioEngineering 2017: BioMEMS, 3D-BioPrinting & Synthetic Biology conference.
Dr. Matthew Hancock spoke about "Modeling and Simulation of Microfluidic Devices" at the Lab-on-a-Chip, Microfluidics & Microarrays World Congress.
Dr. Matthew Hancock offered a presentation on "Modeling and Simulation of Microfluidic Organ-on-Chip Devices" at the Lab-on-a-Chip Microfluidics & Microarrays World Congress 2016.
Dr. Matthew Hancock offered a presentation on "Modeling and Simulation of Microfluidic Organ-on-a-Chip Devices" at the Organ-on-a-Chip World Congress & 3D Culture 2016.
Dr. Matthew Hancock spoke at two conferences about “Modeling and Simulation of Microfluidic Devices” and "Modeling and Simulation of Microfluidic Organ-on-a-Chip Devices" in San Diego, California.
At COMSOL Day Boston, Dr. Nagi Elabbasi spoke about Multiphysics Simulation in Medical Devices and Bioengineering and Dr. Matthew Hancock spoke about Modeling and Simulation of Microfluidic Devices.
Dr. Matthew Hancock co-presented a webinar titled "Modeling Microfluidic Devices with COMSOL Multiphysics," which focused on enhancing modeling and design processes for lab-on-a-chip devices, biosensors, micromixers, inkjet nozzles, and other microfluidic systems.
Dr. Matthew Hancock presented case studies and performed a live demo as part of the May 14, 2015 webinar "Simulation of Microfluidic Devices Using COMSOL" hosted by COMSOL and NASA Tech Briefs.
Dr. Matthew Hancock presented “Using COMSOL Multiphysics in Microfluidic Applications” at the COMSOL Multiphysics workshop focusing on fluid simulations. Dr. Hancock showed different ways that COMSOL simulations can support the design and performance optimization of microfluidic systems.