2004
DOI: 10.1016/j.jbiotec.2004.04.019
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New magnetic nanoparticles for biotechnology

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Cited by 151 publications
(98 citation statements)
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“…As samples. Also, the maximum of the sensitivity is at very low fields of only 8 Oe, making it the system of choice for the detection of small or weak magnetic objects 166 , for example microscopic magnetic particles as they are used in biotechnology and medical applications 191,192 . A unique feature that can be added by soft magnetoresistive sensors in this respect will be introduced in the next paragraph.…”
Section: Demonstrator: Magnetic Detection On a Curved Surfacementioning
confidence: 99%
See 1 more Smart Citation
“…As samples. Also, the maximum of the sensitivity is at very low fields of only 8 Oe, making it the system of choice for the detection of small or weak magnetic objects 166 , for example microscopic magnetic particles as they are used in biotechnology and medical applications 191,192 . A unique feature that can be added by soft magnetoresistive sensors in this respect will be introduced in the next paragraph.…”
Section: Demonstrator: Magnetic Detection On a Curved Surfacementioning
confidence: 99%
“…Magnetic particles are widely used for diagnostic or therapeutic purposes in biology and medicine [190][191][192]194 , implying the necessity of implementation of magnetic field sensors in complex biomedical systems. In this respect, magnetoresistive sensors, especially those relying on the GMR effect represent an efficient solution for the use in fluidic biodetection platforms due to their high sensitivity 195 .…”
Section: Gmr Sensors In Circumferential Geometrymentioning
confidence: 99%
“…Certamente, esses materiais podem ser revestidos com moléculas biológicas para fazer com que os mesmos interajam com outras espécies biológicas e, desse modo, fornecendo um meio controlável de endereça-mento dessas espécies no organismo [5]. Além disso, os materiais nanoestruturados são magnéticos, o que significa que os mesmos seguem as leis de Coulomb e podem, portanto, serem manipulados por um campo magnético externo [6][7].…”
Section: Introductionunclassified
“…Isto porque esses materiais apresentam tamanho na extensão de alguns a dezenas de nanômetros, os quais são menores ou comparáveis ao tamanho de uma célula (10 -100 µm), de um vírus (20 -450 nm), de uma proteína (5 -50 nm) ou de um gene (2 nm de largura e 10 -100 nm de comprimento) [3][4]. Isto significa que as nanopartículas podem ser empregadas como uma entidade biológica.Certamente, esses materiais podem ser revestidos com moléculas biológicas para fazer com que os mesmos interajam com outras espécies biológicas e, desse modo, fornecendo um meio controlável de endereça-mento dessas espécies no organismo [5]. Além disso, os materiais nanoestruturados são magnéticos, o que significa que os mesmos seguem as leis de Coulomb e podem, portanto, serem manipulados por um campo magnético externo [6][7].…”
unclassified
“…[5][6][7][8]. Some authors have even proposed the preparation of multifunctional nanoparticles or nanoplatforms with three or more functions (multi-gene vector, drug carrier, and heating properties for hyperthermia) [9,10].…”
mentioning
confidence: 99%