Biomedical Engineering Reference
In-Depth Information
4
Latham , A.H. and Williams , M.E. ( 2008 )
Controlling transport and chemical
functionality of magnetic nanoparticles.
Accounts of Chemical Research
,
41
,
411 - 20 .
5
Huber , D.L. ( 2005 ) Synthesis, properties,
and applications of iron nanoparticles.
Small
,
1
, 482 - 501 .
6
Yantasee , W. , Hongsirikarn , K. , Warner ,
C.L. , Choi , D. , Sangvanich , T. , Toloczko ,
M.B. , Warner , M.G. , Fryxell , G.E. ,
Addleman , R.S. and Timchalk , C. ( 2008 )
Direct detection of Pb in urine and Cd,
Pb, Cu, and Ag in natural waters using
electrochemical sensors immobilized
with DMSA functionalized magnetic
nanoparticles .
Analyst
,
133
, 348 .
7
Yantasee , W. , Warner , C.L. , Sangvanich ,
T. , Addleman , R.S. , Carter , T.G. , Wiacek ,
R.J. , Fryxell , G.E. , Timchalk , C. and
Warner , M.G. ( 2007 ) Removal of heavy
metals from aqueous systems with thiol
functionalized superparamagnetic
nanoparticles .
Environmental Science
& Technology
,
41
, 5114 - 19 .
8
Corr , S.A. , Rakovich , Y.P. and Gun ' ko ,
Y.K. ( 2008 ) Multifunctional magnetic -
fl uorescent nanocomposites for
biomedical applications.
Nanoscale
Research Letters
,
3
, 87 - 104 .
9
Seydack , M. ( 2005 ) Nanoparticle labels
in immunosensing using optical
detection methods.
Biosensors &
Bioelectronics
,
20
, 2454 - 69 .
10
Pankhurst , Q.A. ( 2006 ) Nanomagnetic
medical sensors and treatment
methodologies .
BT Technology Journal
,
24
, 33 - 8 .
11
Pankhurst , Q.A. , Connolly , J. , Jones ,
S.K. and Dobson , J. ( 2003 ) Applications
of magnetic nanoparticles in
biomedicine .
Journal of Physics D:
Applied Physics
,
36
, R 167 - 81 .
12
Rodriguez - Mozaz , S. , de Alda , M.J.L.
and Barcelo , D. ( 2006 ) Biosensors as
useful tools for environmental analysis
and monitoring.
Analytical and
Bioanalytical Chemistry
,
386
, 1025 - 41 .
13
Katz , E. , Willner , I. and Wang , J. ( 2004 )
Electroanalytical and bioelectroanalytical
systems based on metal and
semiconductor nanoparticles.
Electroanalysis
,
16
, 19 - 44 .
14
Laurent , S. , Forge , D. , Port , M. , Roch ,
A. , Robic , C. , Van der Elst , L. , Muller ,
R.N. and Iron , M. ( 2008 ) Oxide
nanoparticles: synthesis, stabilization,
vectorization, physicochemical
characterizations, and biological
applications.
Chemical Reviews
,
108
,
2064 - 110 .
15
Katz , E. and Willner , I. ( 2004 ) Integrated
nanoparticle - biomolecule hybrid
systems: synthesis, properties, and
applications.
Angewandte Chemie,
International Edition in English
,
43
,
6042 - 108 .
16
Salgueirino - Maceira , V. and Correa -
Duarte , M.A. ( 2007 ) Increasing the
complexity of magnetic core/shell
structured nanocomposites for biological
applications.
Advanced Materials
,
19
,
4131 - 44 .
17
Lu , A.H. , Salabas , E.L. and Schueth , F.
( 2007 ) Magnetic nanoparticles: synthesis,
protection, functionalization, and
application.
Angewandte Chemie,
International Edition in English
,
46
,
1222 - 44 .
18
Magnani , M. , Galluzzi , L. and Bruce , I.J.
(2006) The use of magnetic
nanoparticles in the development of new
molecular detection systems.
Journal of
Nanoscience and Nanotechnology
,
6
,
2302 - 11 .
19
Fryxell , G.E. ( 2007 ) In
Environmental
Applications of Nanomaterials
(eds. G.E.
Fryxell and G. Cao ), Imperial College
Press , London , pp. 159 - 78 .
20
Ngomsik , A. , Bee , A. , Draye , M. , Cote ,
G. and Cabuil , V. ( 2005 ) Magnetic
nano- and microparticles for metal
removal and environmental applications:
a review.
Comptes Rendus Chimie
,
8
,
963 - 70 .
21
Jun , Y. , Choi , J. and Cheon , J. ( 2006 )
Shape control of semiconductor and
metal oxide nanocrystals through
nonhydrolytic colloidal routes.
Angewandte Chemie, International Edition
in English
,
45
, 3414 - 39 .
22
Park , J. , Joo , J. , Kwon , S. , Jang , Y. and
Hyeon , T. ( 2007 ) Synthesis of
monodisperse spherical nanocrystals.
Angewandte Chemie, International Edition
in English
,
46
, 4630 - 60 .
