商品簡介
Poised to dramatically impact human health, biomedical microsystems (bioMEMS) technologies incorporate various aspects from materials science, biology, chemistry, physics, medicine, and engineering. Reflecting the highly interdisciplinary nature of this area, Biomedical Microsystems covers the fundamentals of miniaturization, biomaterials, microfabrication, and nanotechnology, along with relevant applications.
Written by an active researcher who was recently named one of Technology Review’s Young Innovators Under 35, the book begins with an introduction to the benefits of miniaturization. It then introduces materials, fabrication technology, and the necessary components of all bioMEMS. The author also covers fundamental principles and building blocks, including microfluidic concepts, lab-on-a-chip systems, and sensing and detection methods. The final chapters explore several important applications of bioMEMS, such as microdialysis, catheter-based sensors, MEMS implants, neural probes, and tissue engineering.
For readers with a limited background in MEMS and bioMEMS, this book provides a practical introduction to the technology used to make these devices, the principles that govern their operation, and examples of their application. It offers a starting point for understanding advanced topics and encourages readers to begin to formulate their own ideas about the design of novel bioMEMS. A solutions manual is available for instructors who want to convert this reference to classroom use.
作者簡介
Ellis Meng is an associate professor in the Department of Biomedical Engineering and the Ming Hsieh Department of Electrical Engineering at the University of Southern California. As an assistant professor, she held the Viterbi Early Career Chair. One of Technology Review’s 2009 Young Innovators Under 35, Dr. Meng has been a recipient of the NSF CAREER Award and the Wallace H. Coulter Foundation Early Career Translational Research Award.
目次
IntroductionEvolution of MEMSApplications of MEMSBioMEMS ApplicationsMEMS ResourcesText Goals and OrganizationMiniaturization and Scaling
BioMEMS MaterialsTraditional MEMS and Microelectronic MaterialsPolymeric Materials for MEMSBiomaterials
Microfabrication Methods and Processes for BioMEMSIntroductionMicrolithographyDopingMicromachiningWafer Bonding, Assembly, and PackagingSurface TreatmentConversion Factors for Energy and Intensity UnitsLaboratory Exercises
MicrofluidicsIntroduction and Fluid PropertiesConcepts in MicrofluidicsFluid-Transport Phenomena and PumpingFlow ControlLaboratory Exercises
Lab-on-a-Chip or Micro Total Analysis SystemsMicroanalytical Systems in Chemistry and BiologySample PretreatmentSample IntroductionSeparations
Sensing and Detection MethodsSensing and DetectionSensor CharacteristicsPrinciples of Physical SensingBiological and Chemical Detection Methods
Applications to Cells, Nucleic Acids, and ProteinsCellsNucleic AcidsProteins
Clinical MonitoringFlow CytometryMicrodialysisCatheter-Based SensorsEndoscopyPoint of Care
MEMS Implants and Bioelectric InterfacesImplantable MEMSMicroelectrodes and Neural ProbesImplantable SensorsDrug DeliveryTissue Engineering
Index
Problems and References appear at the end of each chapter.
