14 Analytical Methods in Environmental Chemistry Journal; Vol. 2 (2019)
Environ. Sci. Pollut. Res., (2018) 1-10.
[17] N. Solovyev, M. Vinceti, P. Grill, J. Mandrioli, B.
Michalke, Redox speciation of iron, manganese,
coupled plasma mass spectrometry, Anal. Chim.
Acta., 973(2017) 25-33.
[18] J. Griboff, D. A. Wunderlin, M. V. Monferran,
Metals, As and Se determination by inductively
coupled plasma-mass spectrometry (ICP-MS)
reservoirs. Their consumption represents a risk for
human health, Microchem. J., 130(2017) 236-244.
[19] A. A. Alqadami, M. Naushad, M. A. Abdalla, M.
R. Khan, Z. A. Alothman, S. M. Wabaidur, A. A.
Ghfar, Determination of heavy metals in skin-
whitening cosmetics using microwave digestion
and inductively coupled plasma atomic emission
spectrometry, IET nanobiotechnol., 11(2017) 597-
603.
[20] M. Baghdadi, F. Shemirani, H. R. L. Z. Zhad,
Determination of cobalt in high-salinity reverse
spectrometry after cold-induced aggregation
microextraction, Anal. Methods, 8(2016) 1908-
1913.
cadmium, calcium, copper, iron, lead, magnesium
and manganese in tea leaves by electrothermal and
Open. Chem., 15 (2017) 200-207.
of Particle Size Distribution on Adsorption
Performance of Activated Carbon, Bull. Chin.
Ceram. Soc ., 4(2010) 015.
[23] G. G. Wildgoose, C. E. Banks, R. G. Compton,
Metal nanoparticles and related materials supported
on carbon nanotubes: methods and applications,
Small, 2 (2006) 182-193.
[24] M. Roldán-Pijuán, R. Lucena, S. Cárdenas, M.
Valcárcel, Micro-solid phase extraction based
on oxidized single-walled carbon nanohorns
immobilized on a stir borosilicate disk: application
to the preconcentration of the endocrine disruptor
benzophenone, Microchem. J, 115(2014) 87-94.
[25] J. M. Jiménez-Soto, S. Cárdenas, M. Valcárcel,
Evaluation of carbon nanocones/disks as sorbent
material for solid-phase extraction, J. Chromatogr
., 30( 2009) 5626-5633.
[26] I. E. M. Carpio, J. D. Mangadlao, H. N. Nguyen,
R. C. Advincula, D. F. Rodrigues, Graphene oxide
functionalized with ethylenediamine triacetic acid
for heavy metal adsorption and anti-microbial
applications, Carbon, 77(2014) 289-301.
[27] A. Miller, P. L. Drake, P. Hintz, M. Habjan,
Characterizing exposures to airborne metals and
Hyg., 54 (2010) 504-513.
[28] Y. Mao, J. Yuan, J. Zhong, Density functional
calculation of transition metal adatom adsorption
on graphene, J. Phys. Condens. Matter., 20(2008)
115209.
[29] D. R. Dreyer, S. Park, C. W. Bielawski, R. S. Ruoff,
The chemistry of graphene oxide, Chem. Soc. Rev.,
39(2010) 228-240.
Björnerbäck, M. H. Rosnes,;S. J. Garitaonandia,
N. Hedin, P. L. Arias, T. Barth, High-Performance
Magnetic Activated Carbon from Solid Waste
from Lignin Conversion Processes. 2. Their Use
as NiMo Catalyst Supports for Lignin Conversion,
ACS Sustain. Chem. Eng., 5(2017) 11226-11237.
[31] D. Zhao, J. Feng, Q. Huo, N. Melosh, G. H.
Fredrickson, B. F. Chmelka, G. D. Stucky, Triblock
copolymer syntheses of mesoporous silica with
periodic 50 to 300 angstrom pores, sci., 279(1998)
548-552.
[32] P. Yang, D. Zhao, D. I. Margolese, B. F. Chmelka,
G. D. Stucky, Generalized syntheses of large-pore
mesoporous metal oxides with semicrystalline
frameworks, Nature, 396(1998) 152.
[33] R. Guillet-Nicolas, R. Ahmad, K. A. Cychosz, F.
Kleitz, M. Thommes, Insights into the pore structure
of KIT-6 and SBA-15 ordered mesoporous silica–
recent advances by combining physical adsorption
with mercury porosimetry, New J. Chem., 40(2016)
4351-4360.
[34] K.M. Choi, H.-C. An, Characterization and
generated as byproducts in the LED manufacturing
environment. J. Occup. Environ. Hyg., 13(2016)
23-30.