By Qingjun Liu, Associate Professor Ping Wang
Within the twenty first century, we're witnessing the combination of 2 dynamic disciplines - electronics and biology. hence bioelectronics and biosensors became of specific curiosity to engineers and researchers operating in similar biomedical components. Written via well-known specialists the sphere, this modern source is the 1st ebook to systematically introduce the concept that, expertise, and improvement of cell-based biosensors. Readers locate information at the most up-to-date cell-based biosensor versions and novel micro-structure biosensor concepts. Taking an interdisciplinary strategy, this distinct quantity provides the most recent cutting edge purposes of cell-based biosensors in a number of biomedical fields. The publication additionally explores destiny developments of cell-based biosensors, together with built-in chips, nanotechnology and microfluidics. Over one hundred forty illustrations aid make clear key subject matters in the course of the e-book. Scientists, engineers, and brands desirous about the advance, layout, and alertness of biosensors and bioelectronics.
Read or Download Cell-Based Biosensors: Principles and Applications (Engineering in Medicine & Biology) PDF
Best biomedical engineering books
This textbook is meant for undergraduate scholars (juniors or seniors) in Biomedical Engineering, with the most target of aiding those scholars know about classical keep watch over conception and its program in physiological structures. additionally, scholars may be in a position to observe the Laboratory digital Instrumentation Engineering Workbench (LabVIEW) Controls and Simulation Modules to mammalian body structure.
Characterisation and layout of Tissue Scaffolds bargains scientists an invaluable advisor at the characterization of tissue scaffolds, detailing what should be measured and why, how such measurements could be made, and addressing industrially vital concerns. half one presents readers with info at the primary concerns within the characterization of tissue scaffolds, whereas different sections element tips to organize tissue scaffolds, speak about strategies in characterization, and current useful issues for brands.
This ebook describes the basic innovations, the most recent advancements and the outlook of the sphere of nanozymes (i. e. , the catalytic nanomaterials with enzymatic characteristics). As one among today’s most fun fields, nanozyme study lies on the interface of chemistry, biology, fabrics technological know-how and nanotechnology.
- Computational Surgery and Dual Training: Computing, Robotics and Imaging
- Nanomedicine, Vol. IIA: Biocompatibility
- Petite and Sweet: Glyco-Nanotechnology as a Bridge to New Medicines
- Mathematical biology 2. Spatial models and biomedical applications
Extra info for Cell-Based Biosensors: Principles and Applications (Engineering in Medicine & Biology)
1, 2002, pp. 17–23. , “Cell Attachment on Silicon Nanostructures,” J. Vac. Sci. Technol. , Vol. 15, No. 6, 1997, pp. 2848–2854. , P. Liesi, and W. Knoll, “Chemically Modifying Glass Surfaces to Study Substratum-Guided Neurite Outgrowth in Culture,” J. Neurosci. , Vol. 69, No. 2, 1996, pp. 189–196. , S. Britland, and P. Connolly, “Growth Cone Guidance and Neuron Morphology on Micropatterned Laminin Surfaces,” J. Cell. , Vol. 105, No. 1, 1993, pp. 203–212. Antonik, M. , N. P. D’Costa, and J. H. Hoh, “A Biosensor Based on Micromechanical Interrogation of Living Cells,” IEEE Eng.
278–288. Fan, Y. , “Improvement of Neural Cell Adhesion to Silicon Surface by Hydroxyl Ion Implantation,” Surf. Coat. , Vol. 131, 2000, pp. 355–359. Fan, Y. , “Culture of Neural Cells on Silicon Wafers with Nano-Scale Surface Topograph,” J. Neurosci. , Vol. 120, No. 1, 2002, pp. 17–23. , “Cell Attachment on Silicon Nanostructures,” J. Vac. Sci. Technol. , Vol. 15, No. 6, 1997, pp. 2848–2854. , P. Liesi, and W. Knoll, “Chemically Modifying Glass Surfaces to Study Substratum-Guided Neurite Outgrowth in Culture,” J.
47, 2000, pp. 290–300. 5 Summary                       35 Wheeler, B. , “Microcontact Printing for Precise Control of Nerve Cell Growth in Culture,” J. Biomech. , Vol. 121, 1999, pp. 73–78. , and C. H. Herz, “Ink-Jet Printing,” Adv. Electron. El. , Vol. 65, 1985, pp. 91–171. , “Synaptic Vesicle Phosphoproteins and Regulation of Synaptic Function,” Science, Vol. 259, 1993, pp. 780–785. Renger, J. , C. Egles, and G.