Skip to content
6CCVD Research

Diamond FET Biosensor Fabrication and Application

At a Glance

Section titled ā€œAt a Glanceā€
MetadataDetails
Publication Date2024-09-30
JournalElectronics
AuthorsFengling Zou, Zimin Wang, Zelong Lin, Chengyong Wang, Zhishan Yuan
InstitutionsGuangdong University of Technology
Citations1

Abstract

Section titled ā€œAbstractā€

Diamond is renowned as the ultimate semiconductor thanks to its exceptional physical properties, including unmatched hardness, exceptional wear resistance, superior mechanical and tribological characteristics, and high fracture strength. Diamond solution-gate field-effect transistors (D-SGFETs) leverage these advantages, along with their outstanding high-power and high-frequency performance, excellent thermal conductivity, wide bandgap, high carrier mobility, and rapid saturation speed. These features make D-SGFETs highly promising for fast and precise biomedical detection applications. This paper provides a comprehensive review of the fabrication techniques for diamond SGFETs, encompassing diamond film synthesis, surface conduction layer formation, source/drain fabrication, and FET packaging. Furthermore, the study delves into the surface functionalization of diamond SGFETs and their diverse applications in biomedical detection. Finally, the paper discusses the future outlook of diamond SGFETs in advancing biomedical detection technologies.

Tech Support

Section titled ā€œTech Supportā€

Original Source

Section titled ā€œOriginal Sourceā€

References

Section titled ā€œReferencesā€
  1. 2001 - Electrolyte-solution-gate FETs using diamond surface for biocompatible ion sensors [Crossref]
  2. 2004 - Carbon nanotube composites [Crossref]
  3. 2012 - Sodium Ion Insertion in Hollow Carbon Nanowires for Battery Applications [Crossref]
  4. 2011 - Nitrogen-enriched carbon nanowires from the direct carbonization of polyaniline nanowires and its electrochemical properties [Crossref]
  5. 2016 - In-situ synthesis of hierarchically porous and polycrystalline carbon nanowires with excellent microwave absorption performance [Crossref]
  6. 2009 - A review of vapor grown carbon nanofiber/polymer conductive composites [Crossref]
  7. 2011 - Carbon nanospheres: Synthesis, physicochemical properties and applications [Crossref]
  8. 2008 - Diamond as an electronic material [Crossref]
  9. 2019 - Biomedical Applications of Carbon Nanomaterial Modified Sensors: A Promising Future [Crossref]
  10. 2019 - Advances in Carbon Based Nanomaterials for Bio-Medical Applications [Crossref]

Reads Similar to This

High-Temperature Optoelectronic Transport Behavior of n-TiO2 Nanoballā€“Stick/p-Lightly Boron-Doped Diamond Heterojunction Impact of the silicon on diamond structure for high temperature switching applications A Highly Linear Dual-Stage Amplifier With Beyond 1.75-THz Gainā€“Bandwidth Product