| ENVIRONMENTAL REMEDIATION MATERIAL |
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| Influence of Natural Organic Matter on Environmental Behavior of Carbon Nanotubes: A Review |
| WANG Peng1, ZHANG Di1, ZHANG Huang2, Ghosh Saikat1
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1 Faculty of Environmental Science and Engineering, Kunming University of Science & Technology, Kunming 650500;
2 Yunnan Institute of Food Safety, Kunming University of Science & Technology, Kunming 650500 |
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Abstract Rapid development of nanotechnology raises the possibility of imminent environmental release of carbon nanotubes (CNTs) due to their extensive production and usage. Enhanced hydrophobicity of CNTs promotes the strong interactions with orga-nic pollutants and natural organic matter (NOM). This paper reviews the environmental behavior of CNT in the presence of NOM, including the influence of NOM on CNTs dispersion and adsorption characteristics of organic pollutants. The “unzipping” and micelle coating have been reported as the prime dispersion mechanism depending on the physicochemical properties of NOM. The interactions between organic pollutants and dispersed CNTs by different dispersion mechanisms should be paid further attention to unveil under-lying adsorption mechanisms. Future research regarding direct measurement of CNTs surface area in the liquid phase and subsequent adsorption of organic pollutants may bring about a deeper insight to the complex environmental interactions.
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Published: 10 January 2017
Online: 2018-05-02
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1 Iijima S. Helical microtubules of graphitic carbon[J]. Nature,1991,354:56.
2 Lam C W,James J T,McCluskey R,et al. A review of carbon nanotube toxicity and assessment of potential occupational and environmental health risks[J]. Critical Rev Toxicology,2006,36:189.
3 Gass M H,Koziol K K,Windle A H,et al. Four-dimensional spectral tomography of carbonaceous nanocomposites[J]. Nano Lett,2006,6:376.
4 Lacerda L,Bianco A,Prato M,et al. Carbon nanotubes as nanomedicines: From toxicology to pharmacology[J]. Adv Drug Delivery Rev,2006,58:1460.
5 Upadhyayula V K,Deng S,Mitchell M C,et al. Application of carbon nanotube technology for removal of contaminants in drinking water: A review[J]. Sci Total Environ,2009,408:1.
6 Pan B,Xing B. Adsorption mechanisms of organic chemicals on carbon nanotubes[J]. Environ Sci Technol,2008,42:9005.
7 Yang K,Xing B. Adsorption of fulvic acid by carbon nanotubes from water[J]. Environ Pollution,2009,157:1095.
8 Rao G P,Lu C,Su F. Sorption of divalent metal ions from aqueous solution by carbon nanotubes: A review[J]. Sep Purif Technol,2007,58:224.
9 Mauter M S,Elimelech M. Environmental applications of carbon-based nanomaterials[J]. Environ Sci Technol,2008,42:5843.
10 Navarro E,Baun A,Behra R,et al. Environmental behavior and ecotoxicity of engineered nanoparticles to algae, plants, and fungi[J]. Environ Sci Technol,2008,17:372.
11 Apul O G,Karanfil T. Adsorption of synthetic organic contaminants by carbon nanotubes: A critical review[J]. Water Res,2015,68:34.
12 Gimbert L J,Hamon R E,Casey P S,et al.Partitioning and stability of engineered ZnO nanoparticles in soil suspensions using flow field-flow fractionation[J]. Environ Chem,2007,4:8.
13 Petersen E J,Huang Q,Weber Jr W J. Ecological uptake and depuration of carbon nanotubes by Lumbriculus variegatus[J]. Environ Health Perspectives,2008,116:496.
14 Roberts A P,Mount A S,Seda B,et al. In vivo biomodification of li-pid-coated carbon nanotubes by Daphnia magna[J]. Environ Sci Technol,2007,41:3025.
15 Templeton R C,Ferguson P L,Washburn K M,et al. Life-cycle effects of single-walled carbon nanotubes (SWNTs) on an estuarine meiobenthic copepod[J]. Environ Sci Technol,2006,40:7387.
16 Certini G,Scalenghe R,Ugolini. FC (2006) Soils: Basic concepts and future challenges[M]. UK: Cambridge University Press Cambridge,2006.
17 Li Q,Xie B,Hwang Y S,et al. Kinetics of C60 fullerene dispersion in water enhanced by natural organic matter and sunlight[J]. Environ Sci Technol,2009,43:3574.
18 Lin D,Xing B. Tannic acid adsorption and its role for stabilizing carbon nanotube suspensions[J]. Environ Sci Technol,2008,42:5917.
19 Bandyopadhyaya R,Nativ-Roth E,Regev O,et al. Stabilization of individual carbon nanotubes in aqueous solutions[J]. Nano Lett,2002,2:25.
20 O′connell M J,Bachilo S M,Huffman C B,et al. Band gap fluorescence from individual single-walled carbon nanotubes[J]. Science,2002,297:593.
21 Matarredona O,Rhoads H,Li Z,et al. Dispersion of single-walled carbon nanotubes in aqueous solutions of the anionic surfactant NaDDBS[J]. J Phys Chem B,2003,107:13357.
22 Hyung H,Fortner J D,Hughes J B,et al. Natural organic matter stabilizes carbon nanotubes in the aqueous phase[J]. Environ Sci Technol,2007,41:179.
23 Chefetz B,Hatcher P G,Hadar Y,et al. Characterization of dissolved organic matter extracted from composted municipal solid waste[J]. Soil Sci Soc Am J,1998,62:326.
24 Polubesova T,Sherman-Nakache M,Chefetz B. Binding of pyrene to hydrophobic fractions of dissolved organic matter: Effect of polyvalent metal complexation[J]. Environ Sci Technol,2007,41:5389.
25 Chappell M A,George A J,Dontsova K M,et al. Surfactive stabilization of multi-walled carbon nanotube dispersions with dissolved humic substances[J]. Environ Pollut,2009,157:1081.
26 Zhang D,Pan B,Cook R L,et al. Multi-walled carbon nanotube dispersion by the adsorbed humic acids with different chemical structures[J]. Environ Pollut,2015,196:292.
27 Saleh N B,Pfefferle L D,Elimelech M. Influence of biomacromolecules and humic acid on the aggregation kinetics of single-walled carbon nanotubes[J]. Environ Sci Technol,2010,44:2412.
28 Zhou X,Shu L,Zhao H,et al. Suspending multi-walled carbon nanotubes by humic acids from a peat soil[J]. Environ Sci Technol,2012,46:3891.
29 Wilkinson K J,Joz-Roland A,Buffle J. Different roles of pedogenic fulvic acids and aquagenic biopolymers on colloid aggregation and stability in freshwaters[J]. Limnology Oceanography,1997,42:1714.
30 Gunasekara A S,Simpson M J,Xing B S. Identification and characterization of sorption domains in soil organic matter using structurally modified humic acids[J]. Environ Sci Technol,2003,37:852.
31 Pan B,Ghosh S,Xing B S. Dissolved organic matter conformation and its interaction with pyrene as affected by water chemistry and concentration[J]. Environ Sci Technol,2008,42:1594.
32 Wang D,Chu L,Paradelo M,et al. Transport behavior of humic acid-modified nano-hydroxyapatite in saturated packed column: Effects of Cu, ionic strength, and ionic composition[J]. J Colloid Interface Sci,2011,360:398.
33 Chen K L,Elimelech M. Influence of humic acid on the aggregation kinetics of fullerene (C 60) nanoparticles in monovalent and divalent electrolyte solutions[J]. J Colloid Interface Sci,2007,309:126.
34 Lin D,Liu N,Yang K,et al. The effect of ionic strength and pH on the stability of tannic acid-facilitated carbon nanotube suspensions[J]. Carbon,2009,47:2875.
35 Wang S G,Liu X W,Gong W X,et al. Adsorption of fulvic acids from aqueous solutions by carbon nanotubes[J]. J Chem Technol Biotechnol,2007,82:698.
36 Yang K,Xing B S. Desorption of polycyclic aromatic hydrocarbons from carbon nanomaterials in water[J]. Environ Pollut,2007,145:529.
37 Ferguson P L,Chandler G T,Templeton R C,et al. Influence of sediment-amendment with single-walled carbon nanotubes and diesel soot on bioaccumulation of hydrophobic organic contaminants by benthic invertebrates[J]. Environ Sci Technol,2008,42:3879.
38 Zhang S,Shao T,Bekaroglu S S K,et al. The impacts of aggregation and surface chemistry of carbon nanotubes on the adsorption of synthetic organic compounds[J]. Environ Sci Technol,2009,43:5719.
39 Sheng G D,Shao D D,Ren X M,et al. Kinetics and thermodynamics of adsorption of ionizable aromatic compounds from aqueous solutions by as-prepared and oxidized multiwalled carbon nanotubes[J]. J Hazard Mater,2010,178:505.
40 Wang X,Liu Y,Tao S,et al. Relative importance of multiple mechanisms in sorption of organic compounds by multiwalled carbon nanotubes[J]. Carbon,2010,48:3721.
41 Oleszczuk P,Pan B,Xing B. Adsorption and desorption of oxytetracycline and carbamazepine by multiwalled carbon nanotubes[J]. Environ Sci Technol,2009,43:9167.
42 Petersen E J,Pinto R A,Landrum P F,et al. Influence of carbon nanotubes on pyrene bioaccumulation from contaminated soils by earthworms[J]. Environ Sci Technol,2009,43:4181.
43 Chen J,Chen W,Zhu D. Adsorption of nonionic aromatic compounds to single-walled carbon nanotubes: Effects of aqueous solution che-mistry[J]. Environ Sci Technol,2008,42:7225.
44 Wang X,Tao S,Xing B. Sorption and competition of aromatic compounds and humic acid on multiwalled carbon nanotubes[J]. Environ Sci Technol,2009,43:6214.
45 Ji L L,Chen W,Zheng S R,et al.Adsorption of sulfonamide antibio-tics to multiwalled carbon nanotubes[J]. Langmuir,2009,25:11608.
46 Chen Q,Saltiel C,Manickavasagam S,et al. Aggregation behavior of single-walled carbon nanotubes in dilute aqueous suspension[J]. J Colloid Interface Sci,2004,280:91.
47 Jiang L Q,Gao L,Sun J. Production of aqueous colloidal dispersions of carbon nanotubes[J]. J Colloid Interface Sci,2003,260:89.
48 Peng X J,Jia J J,Gong X M,et al. Aqueous stability of oxidized carbon nanotubes and the precipitation by salts[J]. J Hazard Mater,2009,165:1239.
49 Yin Y F,Mays T,McEnaney B. Adsorption of nitrogen in carbon nanotube arrays[J]. Langmuir,1999,15:8714.
50 Pan B,Zhang D,Li H,et al. Increased adsorption of sulfametho-xazole on suspended carbon nanotubes by dissolved humic acid[J]. Environ Sci Technol,2013,47:7722.
51 Jaeger F,Bowe S,Van As H,et al. Evaluation of 1H NMR relaxo-metry for the assessment of pore-size distribution in soil samples[J]. Eur J Soil Sci,2009,60:1052.
52 Schaumann G E,Hobley E,Hurra B J,et al. H-NMR relaxometry to monitor wetting and swelling kinetics in high-organic matter soils[J]. Plant Soil,2005,275:1.
53 Nelson A,Jack K S,Cosgrove T,et al. NMR solvent relaxation in studies of multicomponent polymer adsorption[J]. Langmuir,2002,18:2750.
54 Carrillo-Carrión C,Lucena R,Cárdenas S,et al. Surfactant-coated carbon nanotubes as pseudophases in liquid-liquid extraction[J]. Analyst,2007,132:551.
55 Gotovac S,Hattori Y,Noguchi D,et al. Phenanthrene adsorption from solution on single wall carbon nanotubes[J]. J Phys Chem B,2006,110:16219.
56 Wang X,Lu J,Xing B. Sorption of organic contaminants by carbon nanotubes: Influence of adsorbed organic matter[J]. Environ Sci Technol,2008,42:3207. |
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