Biomedical Engineering Reference
In-Depth Information
ethers .
Chemical Communications
(Cambridge, England)
,
32
, 3404 - 5 .
89
Zheng , Y. , Stevens , P.D. and Gao , Y.
(2006) Magnetic nanoparticles as an
orthogonal support of polymer resins:
applications to solid - phase Suzuki
cross - coupling reactions .
Journal of
Organic Chemistry
,
71
, 537 - 42 .
90
Templeton , A.C. , Hostetler , M.J. , Kraft ,
C.T. and Murray , R.W. ( 1998 ) Reactivity
of monolayer-protected gold cluster
molecules: steric effects.
Journal of the
American Chemical Society
,
120
, 1906 - 11 .
91
Tan , H. , Zhan , T. and Fan , W.Y. ( 2006 )
Direct functionalization of the hydroxyl
group of the 6 - Mercapto - 1 - hexanol
(MCH) ligand attached to gold
nanoclusters .
The Journal of Physical
Chemistry B
,
110
, 21690 - 3 .
92
(a) Thode , C. and Williams , M.E. ( 2008 )
Grignard functionalization of Weinreb
amide - modifi ed Au nanoparticles.
Langmuir
,
24
, 5988 - 90 ;
(b) Fleming , D.A. , Thode , C.J. and
Williams , M.E. ( 2006 ) Triazole
cycloaddition as a general route for
functionalization of Au nanoparticles.
Chemistry of Materials
,
18
, 2327 - 34 .
93
(a) O ' Reilly , R.K. , Joralemon , M.J. ,
Wooley , K.L. and Hawker , C.J. ( 2005 )
Functionalization of micelles and shell
cross-linked nanoparticles using click
chemistry .
Chemistry of Materials
,
17
,
5976 - 88 ;
(b) O ' Reilly , R.K. , Joralemon , M.J. ,
Hawker , C.J. and Wooley , K.L. ( 2006 )
Fluorogenic 1,3 - dipolar cycloaddition
within the hydrophobic core of a shell
cross - linked nanoparticle .
Chemistry - A
European Journal
,
12
, 6776 - 86 .
94
Sun , E.Y. , Josephson , L. and Weissleder ,
R. ( 2006 ) “ Clickable ” nanoparticles for
targeted imaging.
Molecular Imaging
,
5
,
122 - 8 .
95
Binder , W.H. and Weinstabl , H.C.
( 2007 ) Surface - modifi ed
superparamagnetic iron - oxide
nanoparticles .
Monatshefte fur Chemie
,
138
, 315 - 20 .
96
Mondini , S. , Cenedese , S. , Marinoni , G. ,
Molteni , G. , Santo , N. , Bianchi , C.L. and
Ponti , A. ( 2008 ) One - step synthesis and
functionalization of hydroxyl-decorated
magnetic nanoparticles.
Journal of
Colloid and Interface Science
,
322
, 173 - 9 .
97
Gravano , S.M. , Dumas , R. , Liu , K. and
Patten , T.E. ( 2005 ) Methods for the
surface functionalization of γ - Fe
2
O
3
nanoparticles with initiators for atom
transfer radical polymerization and the
formation of core - shell inorganic -
polymer structures .
Journal of Polymer
Science. Part A-1, Polymer Chemistry
,
43
,
3675 - 88 .
98
Lin , P. - C. , Ueng , S. - H. , Yu , S. - C. , Jan ,
M. - D. , Adak , A.K. , Yu , C. - C. and Lin ,
C. - C. ( 2007 ) Surface modifi cation of
magnetic nanoparticle via Cu(I)-
catalyzed alkyne-azide [2 + 3]
cycloaddition .
Organic Letters
,
9
, 2131 - 4 .
99
St ö ber , W. , Fink , A. and Bohn , E. ( 1968 )
Controlled growth of monodisperse
silica spheres in the micron size range.
Journal of Colloid and Interface Science
,
26
, 62 - 9 .
100
Lu , Z. , Wang , G. , Zhuang , J. and Yang ,
W. ( 2006 ) Effects of the concentration of
tetramethylammonium hydroxide
peptizer on the synthesis of Fe
3
O
4
/SiO
2
core/shell nanoparticles.
Colloids and
Surfaces A
,
278
, 140 - 3 .
101
Lee , D.C. , Mikulec , F.V. , Pelaez , J.M. ,
Koo , B. and Korgel , B.A. ( 2006 )
The
Journal of Physical Chemistry B
,
110
,
11160 - 6 .
102
Jacinto , M.J. , Kiyohara , P.K. , Masunaga ,
S.H. , Jardim , R.F. and Rossi , L.M. ( 2008 )
Recoverable rhodium nanoparticles:
synthesis, characterization and catalytic
performance in hydrogenation reactions.
Applied Catalysis A
,
338
, 52 - 7 .
103
Stjerndahl , M. , Andersson , M. , Hall ,
H.E. , Pajerowski , D.M. , Meisel , M.W.
and Duran , R.S. ( 2008 )
Superparamagnetic Fe
3
O
4
/SiO
2
nanocomposites: enabling the
tuning of both the iron oxide load and
the size of the nanoparticles.
Langmuir
,
24
, 3532 - 6 .
104
(a) Liz - Marz á n , L.M. , Giersig , M. and
Mulvaney , P. ( 1996 ) Synthesis of
nanosized gold- silica core - shell particles .
Langmuir
,
12
, 4329 - 35 ;
(b) Mulvaney , P. , Liz - Marz á n , L.M. ,
Giersig , M. and Ung , T. ( 2000 ) Silica
encapsulation of quantum dots and