Implantable Microdevices
Download Url(s)
https://mdpi.com/books/pdfview/book/1736Author(s)
Qiu, Zhen
Li, Wen
Language
EnglishAbstract
Implantable microdevices, providing accurate measurement of target analytes in animals and humans, have always been important in biological science, medical diagnostics, clinical therapy, and personal healthcare. Recently, there have been increasing unmet needs for developing high-performance implants that are small, minimally-invasive, biocompatible, long-term stable, and cost-effective. Therefore, the aim of this Special Issue is to bring together state-of-the-art research and development contributions that address key challenges and topics related to implantable microdevices. Applications of primary interest include, but are not limited to, miniaturized optical sensing and imaging tools, implantable sensors for detecting biochemical species and/or metabolites, transducers for measuring biophysical quantities (e.g., pressure and/or strain), and neural prosthetic devices.
Keywords
round window stimulation; n/a; reactive loading; retinal implant; circular polarization; mandibular advancement splint; MedRadio; Medical Device Radiocommunications Service (MedRadio) band; patch antenna; wireless charging; drag reduce; piezoelectric transducer; high-density; specific absorption rate (SAR); micro/nano electrode; electrocardiogram (ECG); microelectrode array; magnetic shielding; conductive polymer; flextensional amplifier; biotelemetry; lotus-like structure; middle ear implant; obstructive sleep apnea; implantable BCI; implantable packaging; coating; electrochemistry; modified electrode; slow wave effect; shark skin; finite element analysis; implantable antenna; biomedical microrobot; magnetic devices; hydrophobicity; pressure sensing array; implantable device; wireless power transfer; hearing loss; system-on-chip; antifoulingISBN
9783039216604, 9783039216611Publisher website
www.mdpi.com/booksPublication date and place
2019Classification
History of engineering and technology