Modeling Biosensor Transport and Reactions in COMSOL Multiphysics^®

Name: Modeling Biosensor Transport and Reactions in COMSOL Multiphysics®
Uploaded: 2019-11-20 16:49:58
Duration: 40 min 44 s
Description: Interested in modeling biosensors? In this archived webinar, we demonstrate how to model the transport and reactions involved using COMSOL Multiphysics®.

Duration: 40:44

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Overview
Transcript

Biosensors are useful for a variety of industries and application areas, such as food manufacturing and medical devices. Watch this archived webinar to learn how to model biosensor devices using the COMSOL Multiphysics^® software. The webinar gives an overview of modeling various chemical reactions, coupling channel flow and species transport, and the reactions between species.

Want to learn more about how the COMSOL^® software fits into your biosensor design process? Contact COMSOL to evaluate the software.

Chapter Selection

Introduction (0:00) Agenda (1:31) Why Simulate Biological Systems? (2:04) COMSOL Multiphysics^® (3:26) The Model Builder (4:48) Application Builder (5:05) COMSOL Server™ (5:36) Run Applications via COMSOL Server™ (5:58) COMSOL Compiler™ (6:16) Biological Multiphysics (7:42) Bringing Glucose Monitoring to New Levels Through Integrated Sensor Design (8:37) COMSOL Approach to Coupled Physics (9:05) The Chemical Reaction Engineering Interfaces (10:04) The Chemical Reaction Engineering Module (12:54) Transport in Diluted Solutions (13:34) Transport in Multicomponent Solutions (14:01) Surface Reactions (14:31) Electrochemical Physics Interfaces (15:07) Surface-Reactive Biosensor Design (16:27) How Does a Biosensor Work? (17:00) Biosensor Geometry and the Use of Symmetry (17:36) Physics Definition (18:07) Physics Definition: Laminar Flow (18:17) Physics Definition: Transport of Diluted Species (18:38) Physics Definition: Surface Reactions (18:56) Live Demo: Biosensor Design (19:20) Q&A (30:54) Further Resources (39:06) Contact Us (40:01)