Environmental Engineering Reference
In-Depth Information
Dror , I. , D. Baram and B. Berkowitz ( 2005 ) Use of nanosized catalysts for transformation
of chloro- organic pollutants :
Environmental Science & Technology
,
39
, 1283 - 90 .
Dunford , R. , A. Salinaro , L. Ai ,
et al.
(1997) Chemical oxidation and DNA damage catalysed
by inorganic sunscreen ingredients:
FEBS Lett.
,
418
( 1 - 2 ), 87 - 90 .
Faraday , M. ( 1857 ) The Bakerian Lecture: Experimental Relations of Gold (and Other
Metals) to Light:
Philos. Trans. R. Soc.
,
147
, 145 - 81 .
Feynman , R. P. ( 1960 ) There 's plenty of room at the bottom:
Eng. Sci. Magazine XXIII
.
California.
Feynman , R. P. ( 1992 ) There 's plenty of room at the bottom:
J. Microelectrochem. Sys
,
1
,
60 - 6 .
Freitas , R. A. ( 1998 ) Exploratory design in medical nanotechnology: a mechanical artifi cial
red cell:
Artif Cells Blood Substit Immobil Biotechnol.
,
26
, 411 - 30 .
Germanenko , I. N. , S. Li and M. S. El Shall ( 2001 ) Decay Dynamics and Quenching of
Photoluminescence from Silicon Nanocrystals by Aromatic Nitro Compounds:
J. Physical
Chemistry B
,
105
( 1 ), 59 - 66 .
Giasuddin , A. B. M. , S. R. Kanel ,
et al.
(2007) Adsorption of Humic Acid onto Nanoscale
Zerovalent Iron and Its Effect on Arsenic Removal:
Environmental Science & Technology
,
41
, 2022 - 7 .
Gidhagen , L. , C. Johansson , G. Omstedt ,
et al.
(2004) Model Simulations of NOx and Ultrafi ne
Particles Close to a Swedish Highway,
Environmental
Science
&
Technology
,
38
( 24 ), 6730 - 40 .
Glenn , J. C. ( 2006 ) Nanotechnology: Future military environmental health considerations :
Technol. Forecast. Soc. Change
,
73
( 2 ), 128 - 17 .
Graham , T. ( 1861 ) Liquid Diffusion Applied to Analysis :
Philos. Trans. R. Soc.
,
151
,
183 - 224 .
Handy , R. D. , F. von der Kammer , J. R. Lead ,
et al.
( 2008 ) The ecotoxicology and chemistry
of manufactured nanoparticles:
Ecotoxicol.
,
4
.
Hardman , R. ( 2006 ) A toxicologic review of quantum dots: toxicity depends on physico-
chemical and environmental factors:
Environ. Health Perspec.
,
114
, 165 - 72 .
Harrison , R. ( 2007 ) Nanoparticles in the atmosphere , in
Nanotechnology: consequences for
human health and the environment
(eds R.E. Hester and R. Harrison ): RSC Publishing ,
Cambridge , 35 - 49 .
Hochella , M. F. ( 2002 ) There 's plenty of room at the bottom: nanoscience in geochemistry:
Geochim. Cosmochim. Acta
,
66
( 5 ), 735 - 43 .
Hurt , R. H. , M. Monthioux and A. Kane ( 2006 ) Toxicology of carbon nanomaterials: Status,
trends, and perspectives on the special issue:
Carbon
,
44
( 6 ), 1028 - 33 .
Hyung , H. , J. D. Fortner , J. B. Hughes and J. H. Kim ( 2007a ) Natural organic matter stabilizes
carbon nanotubes in the aqueous phase:
Environmental Science & Technology
,
41
( 1 ),
179 - 84 .
Jung , H. , D. B. Kittelson and M. R. Zachariah ( 2005 ) The infl uence of a cerium additive
on ultrafi ne diesel particle emissions and kinetics of oxidation:
Combustion and Flame
,
142
( 3 ), 276 - 88 .
Kamat , P. V. , R. Huehn and R. Nicolaescu ( 2002 ) A 'sense and shoot' approach for photo-
catalytic degradation of organic contaminants in water:
J. Physical Chemistry B
,
106
( 4 ),
788 - 94 .
Kamat, P. V. and D. Meisel ( 2003 ) Nanoscience opportunities in environmental remediation :
Compt. Rend. Chim.
,
6
( 8 - 10 ), 999 - 1007 .
Kanel , S. R. , D. Dhriti , M. Bruce and C. Heechul ( 2007 ) Transport of surface - modifi ed iron
nanoparticle in porous media and application to arsenic(III) remediation:
J. Nanopart.
Res.
,
9
, 725 - 35 .
Kanel , S. R. , B. Manning , L. Charlet and H. Choi ( 2005 ) Removal of Arsenic(III) from
Groundwater by Nanoscale Zero - Valent Iron :
Environmental Science & Technology
,
39
( 5 ), 1291 - 8 .
Kim , Y. C. , S. Sasaki , K. Yano ,
et al.
(2001) Photocatalytic sensor for the determination of
chemical oxygen demand using fl ow injection analysis:
Anal. Chim. Acta.
,
432
( 1 ), 59 - 66 .
Search WWH ::
Custom Search