【Invited】The design of biosensors based on advanced nanomaterials for the detection of non-communicable diseases (NCDs)

カテゴリ: 部門大会

論文No: 2-C-p1-4

グループ名: 【A】令和６年電気学会基礎・材料・共通部門大会

発行日: 2024/08/26

タイトル(英語): 【Invited】The design of biosensors based on advanced nanomaterials for the detection of non-communicable diseases (NCDs)

著者名: PHETSANG SOPIT(Chiang Mai University), OUNNUNKAD KONTAD(Chiang Mai University), SHINBO KAZUNARI(Niigata University), KATO KEIZO(Niigata University), BABA AKIRA(Niigata University)

キーワード: Nanomaterials|Biosensors|NCDs|Nanocomposites|Graphene oxide|

要約(日本語): Advanced nanomaterials represent a rapidly evolving field at the intersection of materials science, nanotechnology, and engineering. Nanomaterials including carbon-based nanomaterials (like graphene oxide, graphene, and carbon nanotubes), metal nanoparticles, and polymer-based nanocomposites, exhibit unique properties distinct from their bulk counterparts, which enhanced mechanical strength, electrical conductivity, thermal stability, and chemical reactivity. The incorporation of nanomaterials into biosensors has revolutionized their development due to the materials' high surface area, exceptional electrical and optical properties, and biocompatibility, which together enable high sensitivity and specificity. The integration of nanomaterials into biosensors enhances signal transduction mechanisms, improves the limit of detection, and facilitates miniaturization and real-time analysis. Advances in this field hold significant promise for improving the early diagnosis, personalized treatment, and management of non-communicable diseases (NCDs), ultimately contributing to better patient outcomes and public health.

要約(英語): Advanced nanomaterials represent a rapidly evolving field at the intersection of materials science, nanotechnology, and engineering. Nanomaterials including carbon-based nanomaterials (like graphene oxide, graphene, and carbon nanotubes), metal nanoparticles, and polymer-based nanocomposites, exhibit unique properties distinct from their bulk counterparts, which enhanced mechanical strength, electrical conductivity, thermal stability, and chemical reactivity. The incorporation of nanomaterials into biosensors has revolutionized their development due to the materials' high surface area, exceptional electrical and optical properties, and biocompatibility, which together enable high sensitivity and specificity. The integration of nanomaterials into biosensors enhances signal transduction mechanisms, improves the limit of detection, and facilitates miniaturization and real-time analysis. Advances in this field hold significant promise for improving the early diagnosis, personalized treatment, and management of non-communicable diseases (NCDs), ultimately contributing to better patient outcomes and public health.

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