Environmental Engineering Reference
In-Depth Information
129. Huang D L, Zeng G M, Feng C L et al. Degradation of lead-contaminated lignocellulosic waste
by Phanerochaete chrysosporium and the reduction of lead toxicity.
Environmental Science &
Technology
, 2008, 42(13): 4946-4951.
130. Oller I, Malato S, Sánchez-Pérez J A. Combination of advanced oxidation processes and biologi-
cal treatments for wastewater decontamination-a review.
Science of the Total Environment
, 2011,
409(20): 4141-4166.
131. Zhang L, Fang M. Nanomaterials in pollution trace detection and environmental improvement.
Nano Today
, 2010, 5(2): 128-142.
132. Mahdavian A R, Mirrahimi M A S. Eficient separation of heavy metal cations by anchoring
polyacrylic acid on superparamagnetic magnetite nanoparticles through surface modiication.
Chemical Engineering Journal
, 2010, 159(1): 264-271.
133. Hu J, Chen G, Lo I. Removal and recovery of Cr (VI) from wastewater by maghemite nanopar-
ticles.
Water Research
, 2005, 39(18): 4528-4536.
134. Carabante I.
Study of Arsenate Adsorption on Iron Oxide by
In Situ
ATR-FTIR Spectroscopy
. Luleå
University of Technology, Luleå, Sweden, 2009.
135. Fan Z, Shelton M, Singh A K et al. Multifunctional plasmonic shell-magnetic core nanoparticles
for targeted diagnostics, isolation, and photothermal destruction of tumor cells.
ACS Nano
,
2012, 6(2): 1065-1073.
136. Chen A, Zeng G, Chen G et al. Simultaneous cadmium removal and 2, 4-dichlorophenol deg-
radation from aqueous solutions by Phanerochaete chrysosporium.
Applied Microbiology and
Biotechnology
, 2011, 91(3): 811-821.
137. Pang Y, Zeng G, Tang L et al. Preparation and application of stability enhanced magnetic
nanoparticles for rapid removal of Cr (VI).
Chemical Engineering Journal
, 2011, 175: 222-227.
138. Plazinski W, Rudzinski W. Modeling the effect of surface heterogeneity in equilibrium of heavy
metal ion biosorption by using the ion exchange model.
Environmental Science & Technology
,
2009, 43(19): 7465-7471.
139. Vilensky M Y, Berkowitz B, Warshawsky A. In situ remediation of groundwater contaminated
by heavy-and transition-metal ions by selective ion-exchange methods.
Environmental Science &
Technology
, 2002, 36(8): 1851-1855.
140. Çoruh S, Şenel G, Ergun O N. A comparison of the properties of natural clinoptilolites and their
ion-exchange capacities for silver removal.
Journal of Hazardous Materials
, 2010, 180(1): 486-492.
141. Hu H, Wang Z, Pan L. Synthesis of monodisperse Fe
3
O
4
@silica core-shell microspheres and
their application for removal of heavy metal ions from water.
Journal of Alloys and Compounds
,
2010, 492(1): 656-661.
142. Iram M, Guo C, Guan Y et al. Adsorption and magnetic removal of neutral red dye from aque-
ous solution using Fe
3
O
4
hollow nanospheres.
Journal of Hazardous Materials
, 2010, 181(1):
1039-1050.
143. Yavuz C T, Mayo J T, William W Y et al. Low-ield magnetic separation of monodisperse Fe3O4
nanocrystals.
Science
, 2006, 314(5801): 964-967.
144. Mayo J T, Yavuz C, Yean S et al. The effect of nanocrystalline magnetite size on arsenic removal.
Science and Technology of Advanced Materials
, 2007, 8(1): 71-75.
145. Nassar N N. Rapid removal and recovery of Pb (II) from wastewater by magnetic nanoadsor-
bents.
Journal of Hazardous Materials
, 2010, 184(1): 538-546.
146. Tuutijärvi T, Lu J, Sillanpää M et al. Adsorption mechanism of arsenate on crystal γ-Fe
2
O
3
nanoparticles.
Journal of Environmental Engineering
, 2010, 136(9): 897-905.
147. Hu J, Lo I M, Chen G. Removal of Cr (VI) by magnetite nanoparticle.
Water Science and Technology:
A journal of the International Association on Water Pollution Research
, 2004, 50(12): 139.
148. Feng Y, Gong J L, Zeng G M et al. Adsorption of Cd (II) and Zn (II) from aqueous solutions
using magnetic hydroxyapatite nanoparticles as adsorbents.
Chemical Engineering Journal
, 2010,
162(2): 487-494.
149. Ashtari P, Wang K, Yang X et al. Preconcentration and separation of ultra-trace beryllium using
quinalizarine-modiied magnetic microparticles.
Analytica Chimica Acta
, 2009, 646(1): 123-127.
