Functionalization of Micro-Hall Effect Sensors for Biomedical Applications Utilizing Superparamagnetic Beads

Adam Lapicki; Hideaki Sanbonsugi; Takuya Yamamura; Nobuhiro Matsushita; Masanori Abe; Hiroki Narimatsu; Hiroshi Handa; Adarsh Sandhu

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Functionalization of Micro-Hall Effect Sensors for Biomedical Applications Utilizing Superparamagnetic Beads

机译：利用超顺磁珠的生物医学应用中的微霍尔效应传感器的功能化

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Fabrication of Hall sensors that are compatible with biological environments has been accomplished in an effort to provide an analytical tool for the detection, identification and quantification of deoxyribonuclaeic acid. Sensors are formed by InSb thin films grown on (100) GaAs wafers. Amorphous silicon nitride was deposited as waterproof sensor insulation, and topped by a gold overlayer serving as an interface for the immobilization of biomolecules. The key analytical processes utilize hybridization of complementary strands of oligonucleotides as a biorecognition mechanism, closing a chain sequence leading to attachment of magnetic beads, where the thiol-gold chemical reactivity produces bonding to the sensor surface.

机译：为了提供一种用于检测，鉴定和定量脱氧核糖核酸的分析工具，已经完成了与生物环境兼容的霍尔传感器的制造。传感器由在（100）个GaAs晶圆上生长的InSb薄膜形成。沉积了无定形氮化硅作为防水传感器绝缘层，并在其上覆盖了一层金，该金层用作固定生物分子的界面。关键的分析过程利用寡核苷酸互补链的杂交作为生物识别机制，从而闭合导致磁珠附着的链序列，其中硫醇-金的化学反应性会产生与传感器表面的键合。

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《IEEE Transactions on Magnetics》 |2005年第10期|p.4134-4136|共3页
作者
Adam Lapicki; Hideaki Sanbonsugi; Takuya Yamamura; Nobuhiro Matsushita; Masanori Abe; Hiroki Narimatsu; Hiroshi Handa; Adarsh Sandhu;
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正文语种 eng
中图分类磁性材料、铁氧体;
关键词
Hall Effect Devices; Magnetic Particles; Magnetic Sensors; Microsensors; Nanostructured Materials;

机译：霍尔效应器件;磁性粒子;磁性传感器;微传感器;纳米结构材料;

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1. High-Sensitivity InSb Thin-Film Micro-Hall Sensor Arrays for Simultaneous Multiple Detection of Magnetic Beads for Biomedical Applications [J] . Kiyoshi Togawa, Hideaki Sanbonsugi, Adam Lapicki, IEEE Transactions on Magnetics . 2005,第10期

机译：用于生物医学应用的磁珠同时多重检测的高灵敏度InSb薄膜微霍尔传感器阵列
2. Magnetic bead counter using a micro-Hall sensor for biological applications [J] . Wonhyun Lee, Sungjung Joo, Sun Ung Kim, Applied Physicsletters . 2009,第15期

机译：使用微霍尔传感器的磁珠计数器，用于生物应用
3. Detection of single magnetic bead for biological applications using an InAs quantum-well micro-Hall sensor [J] . Goran Mihajlovic, Peng Xiong, Stephan von Molnar, Applied Physics Letters . 2005,第11期

机译：使用InAs量子阱微霍尔传感器检测生物应用中的单个磁珠
4. Magnetic Field Mediated Collection and Dispersion of Superparamagentic Beads on Micro-Hall Effect Biosensors Using Localized Integrated Field Gradients for Biomedical Applications [C] . Y. Kumagai, K. Togawa, M. Iino, Intermag Conference . 2006

机译：磁场介导的超像素珠子对微厅效果生物传感器对生物医学应用的局部综合梯度梯度的集合和分散
5. Magnetic Force Microscopy of Superparamagnetic Nanoparticles for Biomedical Applications [D] . Nocera, Tanya M. 2013

机译：用于生物医学的超顺磁性纳米粒子的磁力显微镜
6. Facile preparation of multifunctional superparamagnetic PHBV microspheres containing SPIONs for biomedical applications [O] . Wei Li, Jan Zaloga, Yaping Ding, -1

机译：轻松制备用于生物医学的含SPIONs的多功能超顺磁性PHBV微球
7. Paramagnetism: Superparamagnetic Twist-Type Actuators with Shape-Independent Magnetic Properties and Surface Functionalization for Advanced Biomedical Applications (Adv. Funct. Mater. 33/2014) [O] . Christian Peters, Olgaç Ergeneman, Pedro D. Wendel García, 2014

机译：paramiagnativ：超顺磁性扭曲型致动器，具有形状无关的磁性和表面官能化，用于高级生物医学应用（ADV。Funct。Matter。33/2014）

Functionalization of Micro-Hall Effect Sensors for Biomedical Applications Utilizing Superparamagnetic Beads

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