An inkjet-printed field-effect transistor for label-free biosensing

機譯：噴墨印刷的場效應晶體管，用于無標簽的生物傳感

代理獲取

本網(wǎng)站僅為用戶提供外文OA文獻查詢和代理獲取服務，本網(wǎng)站沒有原文。下單后我們將采用程序或人工為您竭誠獲取高質量的原文，但由于OA文獻來源多樣且變更頻繁，仍可能出現(xiàn)獲取不到、文獻不完整或與標題不符等情況，如果獲取不到我們將提供退款服務。請知悉。

頁面導航

摘要
著錄項
引文網(wǎng)絡
相似文獻
相關主題

摘要

A flexible, biological field-effect transistor (BioFET) for use in biosensing is reported. The BioFET is based on an organic thin-film transistor (OTFT) fabricated mainly by inkjet printing and subsequently functionalized with antibodies for protein recognition. The BioFET is assessed for label-free detection of a model protein, human immunoglobulin G (HIgG). It is characterized electrically to evaluate the contribution of each step in the functionalization of the OTFT and to detect the presence of the target protein. The fabrication, structure, materials optimization, electrical characteristics, and functionality of the starting OTFT and final BioFET are also discussed. Different materials are evaluated for the top insulator layer, with the aim of protecting the lower layers from the electrolyte and preserving the BioFET electrical performance.

機譯：據(jù)報道，用于生物傳感的柔性生物場效應晶體管（BioFET）。 BioFET基于主要通過噴墨印刷制造的有機薄膜晶體管（OTFT），隨后通過抗體進行功能化以進行蛋白質識別。對BioFET進行了評估，以檢測模型蛋白，人免疫球蛋白G（HIgG）的無標記檢測。其電學特征是評估每個步驟對OTFT功能化的貢獻并檢測目標蛋白的存在。還討論了起始OTFT和最終BioFET的制造，結構，材料優(yōu)化，電特性和功能。評估頂絕緣層的不同材料，目的是保護下層不受電解質影響并保持BioFET的電性能。

著錄項

作者
Medina-Sánchez, Mariana; Martínez-Domingo, Carmen; Ramón, Eloi; Merko?i, Arben;
展開▼
作者單位

展開▼
年度 2016
總頁數(shù)
原文格式 PDF
正文語種 eng
中圖分類

相似文獻

外文文獻
中文文獻
專利

1. An Inkjet-Printed Field-Effect Transistor for Label-Free Biosensing [J] . Mariana Medina-Sanchez, Carme Martinez-Domingo, Eloi Ramon, Advanced Functional Materials . 2014,第40期

機譯：噴墨印刷的場效應晶體管，用于無標簽生物傳感
2. Label-free and reagent-less protein biosensing using aptamer-modified extended-gate field-effect transistors [J] . Goda T., Miyahara Y. Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2013,第Null期

機譯：使用適體修飾的擴展門場效應晶體管實現(xiàn)無標記和無試劑的蛋白質生物傳感
3. Label-free biosensing of a gene mutation using a silicon nanowire field-effect transistor [J] . Wu CC, Ko FH, Yang YS, Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2009,第4期

機譯：使用硅納米線場效應晶體管的基因突變的無標記生物傳感
4. Field-effect devices functionalised with gold-nanoparticle/macromolecule hybrids: New opportunities for a label-free biosensing [C] . A. Poghossian, M.H. Weil, M. Backer European Conference on Solid-State Transducers . 2013

機譯：用金納米粒子/大分子雜種官能化的現(xiàn)場效應裝置：無標簽生物腐蝕的新機會
5. Advancements in Label-Free Biosensing Using Field-Effect Transistors and Aided by Molecular Dynamics Simulations [D] . ?Guros, Nicholas Bernhard 2019

機譯：使用場效應晶體管的無標簽生物沉積的進步，并通過分子動力學模擬輔助
6. Photo-Induced Doping in a Graphene Field-Effect Transistor with Inkjet-Printed Organic Semiconducting Molecules [O] . Nikita Nekrasov, Dmitry Kireev, Nejra Omerovi?, 2019

機譯：噴墨印刷有機半導體分子在石墨烯場效應晶體管中的光誘導摻雜
7. Photo-Induced Doping in a Graphene Field-Effect Transistor with Inkjet-Printed Organic Semiconducting Molecules [O] . Nikita Nekrasov, Dmitry Kireev, Nejra Omerovi?, 2019

機譯：在石墨烯場效應晶體管中的光誘導摻雜，采用噴墨印刷有機半導體分子

代理獲取

客服郵箱：kefu@zhangqiaokeyan.com

客服微信
服務號

国产bbaaaaa片,成年美女黄网站色视频免费,成年黄大片,а天堂中文最新一区二区三区,成人精品视频一区二区三区尤物

An inkjet-printed field-effect transistor for label-free biosensing

摘要

著錄項

引文網(wǎng)絡

相似文獻

相關主題

期刊訂閱