Graphene-based materials for environmental applications: a review

被引：0

作者：

V. Karthik

P. Selvakumar

P. Senthil Kumar

Dai-Viet N. Vo

M. Gokulakrishnan

P. Keerthana

V. Tamil Elakkiya

R. Rajeswari

机构：

[1] Government College of Technology,Department of Industrial Biotechnology

[2] Adama Science and Technology University,Department of Chemical Engineering

[3] Sri Sivasubramaniya Nadar College of Engineering,Department of Chemical Engineering

[4] Nguyen Tat Thanh University,Center of Excellence for Green Energy and Environmental Nanomaterials (CE@GrEEN)

[5] Bharathidasan Institute of Technology,Department of Biotechnology

[6] Anna University,Department of Biotechnology

[7] P.S.R.Engineering College,undefined

来源：

Environmental Chemistry Letters | 2021年 / 19卷

关键词：

Graphene; Synthesis; Functionalization; Toxic pollutant; Analysis; Remediation;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The recent discovery and synthesis of graphene materials have led to many applications in various fields such as medicine, energy and environment. Here, we review the synthesis, functionalization, properties and applications of graphene materials with focus on environmental applications such as detection and adsorption of pollutants, and photocatalysis. For instance, hybrid systems can detect pollutants at levels of 0.1 nM Pb2+, 5 nM Hg2+ and 0.3 μmol Cu2+ per L with a faster response time. Graphene-based materials have adsorption capacities ranging from 21 to 117.5 mg/g for metal ions, and from 1 to 827 mg/g for organic pollutants. Graphene oxide-based photocatalytic devices allow more than 95% of dye degradation.

引用

页码：3631 / 3644

页数：13

共 280 条

[1]

Akpotu SO(2018)Application of as-synthesized MCM-41 and MCM-41 wrapped with reduced graphene oxide/graphene oxide in the remediation of acetaminophen and aspirin from aqueous system J Environ Manage 209 205-215

[2]

Moodley B(2019)Graphene based adsorbents for remediation of noxious pollutants from wastewater Environ Int 127 160-180

[3]

Ali I(2015)A novel nanocomposite based on TiO2/Cu2O/reduced graphene oxide with enhanced solar-light-driven photocatalytic activity Appl Surf Sci 324 419-431

[4]

Basheer AA(2015)Crumpling deformation regimes of monolayer graphene on substrate: a molecular mechanics study J Phys Condens Matter 27 345401-615

[5]

Mbianda XY(2007)Carbon-based electronics Nat Nanotechnol 2 605-581

[6]

Burakov A(2011)Thermal properties of graphene and nanostructured carbon materials Nat Mater 10 569-10

[7]

Galunin E(2020)Adsorptive removal of dye in wastewater by metal ferrite-enabled graphene oxide nanocomposites Chemosphere 274 129518-1067

[8]

Burakova I(2013)Impermeability of graphene and its applications Carbon 62 1-46

[9]

Almeida BM(2017)Magnetically recoverable Fe3O4/graphene nanocomposite towards efficient removal of triazine pesticides from aqueous solution: Investigation of the adsorption phenomenon and specific ion effect Chemosphere 168 1058-13794

[10]

Melo MA(2015)4-chlorophenol removal from water using graphite and graphene oxides as photocatalysts J Environ Health Sci Eng 13 33-334

← 1 2 3 4 5 6 7 8 9 10 →