Environmental Engineering Reference
In-Depth Information
65. Gong J, Li S, Zhang D et al. High quality self-assembly magnetite (Fe
3
O
4
) chain-like core-shell
nanowires with luminescence synthesized by a facile one-pot hydrothermal process.
Chemical
Communications
, 2010, 46(20): 3514-3516.
66. Huang J, Chen W, Zhao W et al. One-dimensional chainlike arrays of Fe
3
O
4
hollow nanospheres
synthesized by aging iron nanoparticles in aqueous solution.
Journal of Physical Chemistry C
,
2009, 113(28): 12067-12071.
67. Wang Y, Zhu Q, Tao L. Fabrication and growth mechanism of hierarchical porous Fe
3
O
4
hol-
low sub-microspheres and their magnetic properties.
Crystal Engineering Communication
, 2011,
13(14): 4652-4657.
68. Han L, Chen Y, Wei Y. Hierarchical lower-like Fe
3
O
4
and γ-Fe
2
O
3
nanostructures: Synthesis,
growth mechanism and photocatalytic properties.
Crystal Engineering Communication
, 2012,
14(14): 4692-4698.
69. Li X, Si Z, Lei Y et al. Hierarchically structured Fe
3
O
4
microspheres: Morphology control and
their application in wastewater treatment.
Crystal Engineering Communication
, 2011, 13(2):
642-648.
70. Zeng S, Tang K, Li T et al. Facile route for the fabrication of porous hematite nanolowers: Its
synthesis, growth mechanism, application in the lithium ion battery, and magnetic and photo-
catalytic properties.
Journal of Physical Chemistry C
, 2008, 112(13): 4836-4843.
71. Lv Y, Wang H, Wang X et al. Synthesis, characterization and growing mechanism of monodis-
perse Fe
3
O
4
microspheres.
Journal of Crystal Growth
, 2009, 311(13): 3445-3450.
72. Chen Y, Xia H, Lu L et al. Synthesis of porous hollow Fe
3
O
4
beads and their applications in
lithium ion batteries.
Journal of Materials Chemistry
, 2012, 22(11): 5006-5012.
73. Dong W, Li X, Shang L et al. Controlled synthesis and self-assembly of dendrite patterns of
Fe
3
O
4
nanoparticles.
Nanotechnology
, 2009, 20(3): 035601, doi:10.1088/0957-4484/20/3/035601.
74. Sahoo Y, Pizem H, Fried T et al. Alkyl phosphonate/phosphate coating on magnetite nanopar-
ticles: A comparison with fatty acids.
Langmuir
, 2001, 17(25): 7907-7911.
75. Sahoo Y, Goodarzi A, Swihart M T et al. Aqueous ferroluid of magnetite nanoparticles:
Fluorescence labeling and magnetophoretic control.
Journal of Physical Chemistry B
, 2005, 109(9):
3879-3885.
76. Bee A, Massart R, Neveu S. Synthesis of very ine maghemite particles.
Journal of Magnetism and
Magnetic Materials
, 1995, 149(1): 6-9.
77. Liu C, Huang P M. Atomic force microscopy and surface characteristics of iron oxides formed
in citrate solutions.
Soil Science Society of America Journal
, 1999, 63(1): 65-72.
78. Kreller D I, Gibson G, Novak W et al. Competitive adsorption of phosphate and carboxylate
with natural organic matter on hydrous iron oxides as investigated by chemical force micros-
copy.
Colloids and Surfaces A: Physicochemical and Engineering Aspects
, 2003, 212(2): 249-264.
79. Yee C, Kataby G, Ulman A et al. Self-assembled monolayers of alkanesulfonic and-phosphonic
acids on amorphous iron oxide nanoparticles.
Langmuir
, 1999, 15(21): 7111-7115.
80. Persson P, Nilsson N, Sjöberg S. Structure and bonding of orthophosphate ions at the iron
oxide-aqueous interface.
Journal of Colloid and Interface Science
, 1996, 177(1): 263-275.
81. Zhang C, Wängler B, Morgenstern B et al. Silica-and alkoxysilane-coated ultrasmall superpara-
magnetic iron oxide particles: A promising tool to label cells for magnetic resonance imaging.
Langmuir
, 2007, 23(3): 1427-1434.
82 Chen M, Yamamuro S, Farrell D et al. Gold-coated iron nanoparticles for biomedical applica-
tions.
Journal Of Applied Physics
, 2003, 93(10): 7551-7553.
83 Morawski A M, Winter P M, Crowder K C et al. Targeted nanoparticles for quantitative imaging
of sparse molecular epitopes with MRI.
Magnetic Resonance in Medicine
, 2004, 51(3): 480-486.
84. Woo K, Hong J, Ahn J P. Synthesis and surface modiication of hydrophobic magnetite to
processible magnetite@silica-propylamine.
Journal of Magnetism and Magnetic Materials
, 2005,
293(1): 177-181.
85. Lu Y, Yin Y, Mayers B T et al. Modifying the surface properties of superparamagnetic iron oxide
nanoparticles through a sol-gel approach.
Nano Letters
, 2002, 2(3): 183-186.
