Nanomagnetic particles for SQUID-based magnetically labeled immunoassay

Author

Horng, H.E. ; Yang, S.Y. ; Huang, Y.W. ; Jiang, W.Q. ; Hong, C.Y. ; Yang, H.C.

Author_Institution

Inst. of Electro-optical Sci. & Technol., Nat. Taiwan Normal Univ., Taipei, Taiwan

Volume

15

Issue

2

fYear

2005

fDate

6/1/2005 12:00:00 AM

Firstpage

668

Lastpage

671

Abstract

With the increasing importance of SQUID-based magnetically labeled immunoassay, the study on the synthesis of controllable sizes of magnetic nanoparticles plays a role to promote the accuracy of the immunoassay. In this work, Fe₃O₄ nano-particles coated with a suitable bio-probe (biotin) are synthesized through chemical co-precipitation process to probe the bio-target (avidin). Through the synthesis developed here, the particle hydrodynamic diameter can be adjusted from 30 to 90 nm, which provide candidates for probing various bio-targets in the future. The amount of the magnetically labeled avidin is then analyzed via measuring the saturated magnetization or the remanence of the sample by using a SQUID magnetometer.

Keywords

SQUID magnetometers; biomedical measurement; biosensors; ferromagnetic materials; magnetic particles; nanoparticles; 30 to 90 nm; Fe₃O₄; SQUID magnetometer; SQUID-based magnetically labeled immunoassay; bio-targets; magnetically labeled avidin; nano-particles; nanomagnetic particles; particle hydrodynamic diameter; Chemical processes; Hydrodynamics; Immune system; Iron; Magnetic analysis; Nanoparticles; Probes; Remanence; Saturation magnetization; Size control; Immunoassay; SQUIDs; nanomagnetic particles;

fLanguage

English

Journal_Title

Applied Superconductivity, IEEE Transactions on

Publisher

ieee

ISSN

1051-8223

Type

jour

DOI

10.1109/TASC.2005.849995

Filename

1439726