Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/a-new-generation-material-graphene-applications-in-water-technology-40MaJbLgn9
References (83)
-
S. Siddiqui, S. Chaudhry, Shahid‐ul‐Islam (2017)
Green Adsorbents from Plant Sources for the Removal of Arsenic: An Emerging Wastewater Treatment Technology -
M. Machida, Tomohide Mochimaru, H. Tatsumoto (2006)
Lead(II) adsorption onto the graphene layer of carbonaceous materials in aqueous solutionCarbon, 44
-
W. Hummers, Richard Offeman (1958)
Preparation of Graphitic OxideJournal of the American Chemical Society, 80
-
Wei Gao, M. Majumder, L. Alemany, T. Narayanan, M. Ibarra, B. Pradhan, P. Ajayan (2011)
Engineered graphite oxide materials for application in water purification.ACS applied materials & interfaces, 3 6
-
S. Siddiqui, S. Chaudhry (2017)
Iron oxide and its modified forms as an adsorbent for arsenic removal: A comprehensive recent advancementProcess Safety and Environmental Protection, 111
-
C. Watanabe, A. Monteiro, E. Gontijo, V. Lira, C. Bueno, N. Kumar, R. Fracacio, A. Rosa (2017)
Toxicity assessment of arsenic and cobalt in the presence of aquatic humic substances of different molecular sizes.Ecotoxicology and environmental safety, 139
-
Hifza Rasheed, P. Kay, R. Slack, Y. Gong, A. Carter (2017)
Human exposure assessment of different arsenic species in household water sources in a high risk arsenic area.The Science of the total environment, 584-585
-
W. Park, Y. Yoon, Seungdu Kim, Seonmi Yoo, Young-Long Do, Joon‐Wun Kang, D. Yoon, W. Yang (2016)
Feasible water flow filter with facilely functionalized Fe3O4-non-oxidative graphene/CNT composites for arsenic removalJournal of environmental chemical engineering, 4
-
S. Chaudhry, Zakiullah Zaidi, S. Siddiqui (2017)
Isotherm, kinetic and thermodynamics of arsenic adsorption onto Iron-Zirconium Binary Oxide-Coated Sand (IZBOCS): Modelling and process optimizationJournal of Molecular Liquids, 229
-
P. Mondal, C. Balomajumder, B. Mohanty (2007)
A laboratory study for the treatment of arsenic, iron, and manganese bearing ground water using Fe(3+) impregnated activated carbon: effects of shaking time, pH and temperature.Journal of hazardous materials, 144 1-2
-
S. Chaudhry, T. Khan, I. Ali (2017)
Equilibrium, kinetic and thermodynamic studies of Cr(VI) adsorption from aqueous solution onto manganese oxide coated sand grain (MOCSG)Journal of Molecular Liquids, 236
-
M. Dikilitas, S. Karakaş, P. Ahmad (2016)
Effect of Lead on Plant and Human DNA Damages and Its Impact on the Environment -
Khaja Abdul, S. Jayasinghe, E. Chandana, C. Jayasumana, P. Silva (2015)
Arsenic and human health effects: A review.Environmental toxicology and pharmacology, 40 3
-
A. Kulshrestha, Urmila Jarouliya, G. Prasad, S. Flora, P. Bisen (2014)
Arsenic-induced abnormalities in glucose metabolism: Biochemical basis and potential therapeutic and nutritional interventions, 3
-
C. Carolin, P. Kumar, A. Saravanan, G. Joshiba, M. Naushad (2017)
Efficient techniques for the removal of toxic heavy metals from aquatic environment: A reviewJournal of environmental chemical engineering, 5
-
Jun-qiang Sang, Xihui Zhang, Lingzhi Li, Zhan-sheng Wang (2003)
Improvement of organics removal by bio-ceramic filtration of raw water with addition of phosphorus.Water research, 37 19
-
R. Bowell, C. Alpers, H. Jamieson, D. Nordstrom, J. Majzlan (2014)
The Environmental Geochemistry of Arsenic — An Overview —Reviews in Mineralogy & Geochemistry, 79
-
T. Khan, S. Chaudhry, I. Ali (2015)
Equilibrium uptake, isotherm and kinetic studies of Cd(II) adsorption onto iron oxide activated red mud from aqueous solutionJournal of Molecular Liquids, 202
-
L. Bai, Xiuju Ma, Junfeng Liu, Xiaoming Sun, Dongyuan Zhao, D. Evans (2010)
Rapid separation and purification of nanoparticles in organic density gradients.Journal of the American Chemical Society, 132 7
-
H. Schniepp, Je-Luen Li, Michael McAllister, Hiroaki Sai, M. Herrera-Alonso, D. Adamson, R. Prud’homme, R. Car, D. Saville, I. Aksay (2006)
Functionalized single graphene sheets derived from splitting graphite oxide.The journal of physical chemistry. B, 110 17
-
D. Mohan, C. Pittman (2007)
Arsenic removal from water/wastewater using adsorbents--A critical review.Journal of hazardous materials, 142 1-2
-
Mingli Chen, Yan Sun, Chun-Bao Huo, Chen Liu, Jianhua Wang (2015)
Akaganeite decorated graphene oxide composite for arsenic adsorption/removal and its proconcentration at ultra-trace level.Chemosphere, 130
-
B. Biswas, Jun-ichi Inoue, K. Inoue, K. Ghimire, H. Harada, K. Ohto, H. Kawakita (2008)
Adsorptive removal of As(V) and As(III) from water by a Zr(IV)-loaded orange waste gel.Journal of hazardous materials, 154 1-3
-
D. Sherman, S. Randall (2003)
Surface complexation of arsenic(V) to iron(III) (hydr)oxides: structural mechanism from ab initio molecular geometries and EXAFS spectroscopyGeochimica et Cosmochimica Acta, 67
-
Y. Yoon, Meng-yang Zheng, Yongtae Ahn, Won Park, W. Yang, Joon‐Wun Kang (2017)
Synthesis of magnetite/non-oxidative graphene composites and their application for arsenic removalSeparation and Purification Technology, 178
-
Gaosheng Zhang, J. Qu, Huijuan Liu, Ruiping Liu, Rong-cheng Wu (2007)
Preparation and evaluation of a novel Fe-Mn binary oxide adsorbent for effective arsenite removal.Water research, 41 9
-
Yu-Jung Lin, W. Cao, T. Ouyang, Bor-Yann Chen, Chang-Tang Chang (2017)
Developing sustainable graphene-doped titanium nano tube coated to superparamagnetic nanoparticles for arsenic recoveryJournal of The Taiwan Institute of Chemical Engineers, 70
-
B. Brodie
On the Atomic Weight of GraphitePhilosophical Transactions of the Royal Society, 149
-
S. Chaudhry, T. Khan, I. Ali (2016)
Adsorptive removal of Pb(II) and Zn(II) from water onto manganese oxide-coated sand: Isotherm, thermodynamic and kinetic studiesEgyptian Journal of Basic and Applied Sciences, 3
-
D. Marcano, D. Kosynkin, J. Berlin, A. Sinitskii, Zhengzong Sun, A. Slesarev, L. Alemany, W. Lu, J. Tour (2010)
Improved synthesis of graphene oxide.ACS nano, 4 8
-
Sharf Chaudhry (2017)
Arsenic Removal from Water Using Nanocomposites: A ReviewComputers & Electrical Engineering, 4
-
Ekta Roy, S. Patra, R. Madhuri, Prashant Sharma (2016)
Europium doped magnetic graphene oxide-MWCNT nanohybrid for estimation and removal of arsenate and arsenite from real water samplesChemical Engineering Journal, 299
-
Hou Wang, Xingzhong Yuan, Yan Wu, Hua-jun Huang, G. Zeng, Yan Liu, Xue-li Wang, Ningbo Lin, Yu Qi (2013)
Adsorption characteristics and behaviors of graphene oxide for Zn(II) removal from aqueous solutionApplied Surface Science, 279
-
Y. Bian, Z. Bian, Jun-Xiao Zhang, A. Ding, Shaolei Liu, Hui Wang (2015)
Effect of the oxygen-containing functional group of graphene oxide on the aqueous cadmium ions removalApplied Surface Science, 329
-
Ping Li, B. Du, H. Chan, Xinbin Feng (2015)
Human inorganic mercury exposure, renal effects and possible pathways in Wanshan mercury mining area, China.Environmental research, 140
-
S. Chaudhry, T. Khan, I. Ali (2017)
Zirconium oxide-coated sand based batch and column adsorptive removal of arsenic from water: Isotherm, kinetic and thermodynamic studiesEgyptian Journal of Petroleum, 26
-
W. Peng, Hongqiang Li, Yanyan Liu, Shaoxian Song (2017)
A review on heavy metal ions adsorption from water by graphene oxide and its compositesJournal of Molecular Liquids, 230
-
Y. Yoon, W. Park, T. Hwang, D. Yoon, W. Yang, Joon‐Wun Kang (2016)
Comparative evaluation of magnetite-graphene oxide and magnetite-reduced graphene oxide composite for As(III) and As(V) removal.Journal of hazardous materials, 304
-
Juliana Rodríguez, P. Mandalunis (2016)
Effect of cadmium on bone tissue in growing animals.Experimental and toxicologic pathology : official journal of the Gesellschaft fur Toxikologische Pathologie, 68 7
-
Qi Zhou, Y. Zhong, Xing Chen, Jinhuai Liu, Xingjiu Huang, Yucheng Wu (2014)
Adsorption and photocatalysis removal of fulvic acid by TiO2–graphene compositesJournal of Materials Science, 49
-
S. Fendorf, M. Eick, P. Grossl, D. Sparks (1997)
Arsenate and Chromate Retention Mechanisms on Goethite. 1. Surface StructureEnvironmental Science & Technology, 31
-
Guohai Yang, Juntao Cao, Lingling Li, R. Rana, Jun‐Jie Zhu (2013)
Carboxymethyl chitosan-functionalized graphene for label-free electrochemical cytosensingCarbon, 51
-
D. Fu, Zhuoqun He, Shanshan Su, Bin Xu, Yuling Liu, Yaping Zhao (2017)
Fabrication of α-FeOOH decorated graphene oxide-carbon nanotubes aerogel and its application in adsorption of arsenic species.Journal of colloid and interface science, 505
-
S. Maliyekkal, L. Philip, T. Pradeep (2009)
As(III) removal from drinking water using manganese oxide-coated-alumina: Performance evaluation and mechanistic details of surface bindingChemical Engineering Journal, 153
-
S. Chaudhry, Maqsood Ahmed, S. Siddiqui, Shakeel Ahmed (2016)
Fe(III)–Sn(IV) mixed binary oxide-coated sand preparation and its use for the removal of As(III) and As(V) from water: Application of isotherm, kinetic and thermodynamicsJournal of Molecular Liquids, 224
-
P. Devi, A. Saroha (2017)
Utilization of sludge based adsorbents for the removal of various pollutants: A review.The Science of the total environment, 578
-
A. Alqadami, M. Naushad, M. Abdalla, T. Ahamad, Z. Alothman, S. Alshehri (2016)
Synthesis and characterization of Fe3O4@TSC nanocomposite: highly efficient removal of toxic metal ions from aqueous mediumRSC Advances, 6
-
Eunhee Ha, N. Basu, S. Bose-O’Reilly, J. Dórea, E. McSorley, M. Sakamoto, H. Chan (2017)
Current progress on understanding the impact of mercury on human healthEnvironmental Research, 152
-
S. Flora (2011)
Arsenic-induced oxidative stress and its reversibility.Free radical biology & medicine, 51 2
-
M. Khatamian, N. Khodakarampoor, M. Saket-Oskoui (2017)
Efficient removal of arsenic using graphene-zeolite based composites.Journal of colloid and interface science, 498
-
L. Staudenmaier (1898)
Verfahren zur Darstellung der GraphitsäureEuropean Journal of Inorganic Chemistry, 31
-
Ling Yu, Yingzhi Ma, C. Ong, Jianping Xie, Yanbiao Liu (2015)
Rapid adsorption removal of arsenate by hydrous cerium oxide–graphene compositeRSC Advances, 5
-
Z. Alothman, Rahmat Ali, M. Naushad (2012)
Hexavalent chromium removal from aqueous medium by activated carbon prepared from peanut shell: Adsorption kinetics, equilibrium and thermodynamic studiesChemical Engineering Journal, 184
-
S. Siddiqui (2017)
Removal of arsenic from water through adsorption onto metal oxide-coated material, 15
-
D. Cortés-Arriagada, A. Toro‐Labbé (2016)
Aluminum and iron doped graphene for adsorption of methylated arsenic pollutantsApplied Surface Science, 386
-
A. Kumar, Shiuh-Jen Jiang (2016)
Chitosan-functionalized graphene oxide: A novel adsorbent an efficient adsorption of arsenic from aqueous solutionJournal of environmental chemical engineering, 4
-
S. Sheshmani, Mehrnaz Nematzadeh, S. Shokrollahzadeh, A. Ashori (2015)
Preparation of graphene oxide/chitosan/FeOOH nanocomposite for the removal of Pb(II) from aqueous solution.International journal of biological macromolecules, 80
-
H. Su, Zhibin Ye, Nuri Hmidi (2017)
High-performance iron oxide-graphene oxide nanocomposite adsorbents for arsenic removalColloids and Surfaces A: Physicochemical and Engineering Aspects, 522
-
A. Mishra, S. Ramaprabhu (2011)
Functionalized graphene sheets for arsenic removal and desalination of sea waterDesalination, 282
-
G. Sharma, M. Naushad, A. Al-Muhtaseb, Amit Kumar, M. Khan, S. Kalia, Shweta, M. Bala, Arush Sharma (2017)
Fabrication and characterization of chitosan-crosslinked-poly(alginic acid) nanohydrogel for adsorptive removal of Cr(VI) metal ion from aqueous medium.International journal of biological macromolecules, 95
-
Emiliano Platero, M. Fernández, P. Bonelli, A. Cukierman (2017)
Graphene oxide/alginate beads as adsorbents: Influence of the load and the drying method on their physicochemical-mechanical properties and adsorptive performance.Journal of colloid and interface science, 491
-
A. Gupta, V. Chauhan, Nalini Sankararamakrishnan (2009)
Preparation and evaluation of iron-chitosan composites for removal of As(III) and As(V) from arsenic contaminated real life groundwater.Water research, 43 15
-
Ji Chen, Bowen Yao, Chun Li, G. Shi (2013)
An improved Hummers method for eco-friendly synthesis of graphene oxideCarbon, 64
-
Huang Nay, Ming, N. Huang, H. Lim, C. Chia, M. Yarmo, M. Muhamad
University of Malaya from the Selectedworks of Huang Nay Ming Simple Room-temperature Preparation of High- Yield Large-area Graphene Oxide Simple Room-temperature Preparation of High-yield Large-area Graphene Oxide -
An-Chieh Kao, Yu-Ju Chu, Fu-Lan Hsu, V. Liao (2013)
Removal of arsenic from groundwater by using a native isolated arsenite-oxidizing bacterium.Journal of contaminant hydrology, 155
-
Caiyun Han, Hongying Li, H. Pu, Hongli Yu, Lian Deng, Si Huang, Yongming Luo (2013)
Synthesis and characterization of mesoporous alumina and their performances for removing arsenic(V)Chemical Engineering Journal, 217
-
J. Matschullat (2000)
Arsenic in the geosphere--a review.The Science of the total environment, 249 1-3
-
A. Kumar, Shiuh-Jen Jiang, Shiuh-Jen Jiang (2017)
Synthesis of magnetically separable and recyclable magnetic nanoparticles decorated with β-cyclodextrin functionalized graphene oxide an excellent adsorption of As(V)/(III)Journal of Molecular Liquids, 237
-
S. Johnston, E. Burton, E. Moon (2016)
Arsenic Mobilization Is Enhanced by Thermal Transformation of Schwertmannite.Environmental science & technology, 50 15
-
S. Ray, C. Majumder, P. Saha (2017)
Functionalized reduced graphene oxide (fRGO) for removal of fulvic acid contaminantRSC Advances, 7
-
I. Anastopoulos, M. Karamesouti, A. Mitropoulos, G. Kyzas (2017)
A review for coffee adsorbentsJournal of Molecular Liquids, 229
-
J. Rech, J. Quade, W. Hart (2003)
Isotopic evidence for the source of Ca and S in soil gypsum, anhydrite and calcite in the Atacama Desert, ChileGeochimica et Cosmochimica Acta, 67
-
Suresh Kumar, Rahul Nair, Premlal Pillai, Satyendra Gupta, M. Iyengar, A. Sood (2014)
Graphene oxide-MnFe2O4 magnetic nanohybrids for efficient removal of lead and arsenic from water.ACS applied materials & interfaces, 6 20
-
Michael McAllister, Je-Luen Li, D. Adamson, H. Schniepp, Ahmed Abdala, Jun Liu, M. Herrera-Alonso, D. Milius, R. Car, ‡. Prud‘homme, I. Aksay (2007)
Single Sheet Functionalized Graphene by Oxidation and Thermal Expansion of GraphiteChemistry of Materials, 19
-
Liangqia Guo, Peirong Ye, Jing Wang, Fengfu Fu, Zujian Wu (2015)
Three-dimensional Fe3O4-graphene macroscopic composites for arsenic and arsenate removal.Journal of hazardous materials, 298
-
T. Khan, S. Chaudhry, I. Ali (2013)
Thermodynamic and kinetic studies of As(V) removal from water by zirconium oxide-coated marine sandEnvironmental Science and Pollution Research, 20
-
Xubiao Luo, Chengcheng Wang, S. Luo, Ruizhi Dong, Xinman Tu, G. Zeng (2012)
Adsorption of As (III) and As (V) from water using magnetite Fe3O4-reduced graphite oxide–MnO2 nanocompositesChemical Engineering Journal, 187
-
S. Dubey, T. Nguyen, Young‐Nam Kwon, Changha Lee (2015)
Synthesis and characterization of metal-doped reduced graphene oxide composites, and their application in removal of Escherichia coli, arsenic and 4-nitrophenolJournal of Industrial and Engineering Chemistry, 29
-
Jin Zhu, Z. Lou, Yu Liu, Ruiqi Fu, S. Baig, Xinhua Xu (2015)
Adsorption behavior and removal mechanism of arsenic on graphene modified by iron–manganese binary oxide (FeMnOx/RGO) from aqueous solutionsRSC Advances, 5
-
J. Ng, Jian-ping Wang, A. Shraim (2003)
A global health problem caused by arsenic from natural sources.Chemosphere, 52 9
-
S. Siddiqui, R. Ravi, G. Rathi, N. Tara, Shahid ul-Islam, S. Chaudhry (2018)
Decolorization of Textile Wastewater Using Composite Materials -
M. Naushad (2014)
Surfactant assisted nano-composite cation exchanger: Development, characterization and applications for the removal of toxic Pb2+ from aqueous mediumChemical Engineering Journal, 235
-
T. Robinson (2017)
Removal of toxic metals during biological treatment of landfill leachates.Waste management, 63
- Publisher
- Springer International Publishing
- Copyright
- © Springer International Publishing AG, part of Springer Nature 2019
- ISBN
- 978-3-319-75483-3
- Pages
- 221 –237
- DOI
- 10.1007/978-3-319-75484-0_9
- Publisher site
- See Chapter on Publisher Site
Abstract
[In 21st century, providing the fresh and affordable water through protects and purifying the water source from pollutants is biggest and most concern environmental challenges. Toxic element particularly arsenic in water is serious matter of threat for human from many developing countries, and long exposure of arsenic is generally associated with skin lesions and hyperkeratosis like adverse effects. Graphene oxide (GO) and its composites have attracted widespread attentions as novel adsorbents for the adsorption of various water pollutants due to their unique physicochemical characteristics. This chapter presents advances made in the synthesis of graphene oxides and their composites, and summarizes the application of these materials as a superior adsorbent for the removal of arsenic from water. The adsorption affinity in terms of contact time, pH, and temperature has been discussed. Competitive ion effect and regeneration are included within the text. Moreover, the challenges for the commercial uses are discussed.]
Published: Jun 21, 2018
Keywords: Heavy metal; Arsenic; Adsorption; Graphene oxide; Magnetic graphene oxide; Remediation of arsenic