Advances in Inorganic Functional Nanomaterials-Based Flexible Electrochemical Biosensors
A special issue of Biosensors (ISSN 2079-6374). This special issue belongs to the section "Wearable Biosensors".
Deadline for manuscript submissions: closed (31 August 2023) | Viewed by 360
Special Issue Editors
Interests: portable and wearable sensors
Interests: biomaterials, biosensor chip, nanomedicine
Special Issues, Collections and Topics in MDPI journals
Interests: electrochemical biosensors; nanomaterial-based visual-ized biosensors
Special Issue Information
Dear Colleagues,
Wearable, flexible, electrochemical sensors are capable of continuously tracking the human body’s physiological signals, having displayed great potential in personalized medical testing. Their requirements should include the ability to maintain excellent analytical performance while repeatedly experiencing deformation and stretching. Inorganic functional nanomaterials can typically convert other signals into electrical ones, which are then quantitatively collected through back-end circuits. At present, the main inorganic nanomaterials used for the construction of flexible electrochemical devices include carbon, metal and hybrid nanomaterials. The fabrication method of the nanomaterial-based flexible electrochemical sensors includes inkjet printing, wet/dry spinning, laser printing, e-beam evaporation, etc. Flexible electrochemical sensor applications in wearable fields for the real-time monitoring of human health mainly include physiological signal monitoring, the detection of disease-related biomolecules from sweat, saliva, tears and urine, monitoring the release of biomolecules from mechanically stretched cells or organisms, etc. Therefore, this Special Issue “Advances in Inorganic Functional Nanomaterial-Based Flexible Electrochemical Biosensors” focuses on recent advances in the fabrication of inorganic functional nanomaterial-based flexible electrochemical sensors, as well as their applications in wearable fields and living cell electrochemical signal monitoring. We invite the submission of research works that could help to advance the field of inorganic functional nanomaterial-based flexible electrochemical sensors.
Dr. Yun Shu
Dr. Songwei Lv
Dr. Chuan-Hua Zhou
Guest Editors
Manuscript Submission Information
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Keywords
- flexible electrochemical sensors
- inorganic functional nanomaterials
- wearable devices
- body fluids
- cells
- organisms
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