Specific Surface Area Versus Adsorptive Capacity: an Application View of 3D Graphene-Based Materials for the Removal of Emerging Water Pollutants

Abouian Jahromi M(2020)Heavy metal pollution and human health risk assessment for exposure to surface soil of mining area: A comprehensive study Environmental Earth Sciences 79 1-18

Jamshidi-Zanjani V(2020)Recent advances in applications of hybrid graphene materials for metals removal from wastewater Nanomaterials 10 595-7329

Khodadadi Darban A(2020)Hydrocarbon-induced hormesis: 101 years of evidence at the margin? Environmental Pollution 265 114846-465

Abu-Nada A(2018)Water treatment by new-generation graphene materials: Hope for bright future Environmental Science and Pollution Research 25 7315-145

McKay G(2015)Green synthesis of iron nano-impregnated adsorbent for fast removal of fluoride from water Journal of Molecular Liquids 211 457-420

Abdala A(2010)Honeycomb carbon: A review of graphene Chemical Reviews 110 132-332

Agathokleous E(2018)Characterization and evaluation of sorption potential of the iron mine waste after Samarco dam disaster in Doce River basin–Brazil Chemosphere 209 411-2670

Barceló D(2019)Razões para investigar a dimensão organizacional nas origens da catástrofe industrial da Vale em Brumadinho, Minas Gerais, Brasil Cadernos De Saúde Pública 35 e00027319-5338

Tsatsakis A(2021)A porous multifunctional and magnetic layered graphene oxide/3D mesoporous MOF nanocomposite for rapid adsorption of uranium (VI) from aqueous solutions Journal of Industrial and Engineering Chemistry 93 322-11768

Calabrese EJ(2019)Graphene oxide impregnated with iron oxide nanoparticles for the removal of atrazine from the aqueous medium Separation Science and Technology 54 2653-10562

Abouian Jahromi M(2020)Heavy metal pollution and human health risk assessment for exposure to surface soil of mining area: A comprehensive study Environmental Earth Sciences 79 1-18

Jamshidi-Zanjani V(2020)Recent advances in applications of hybrid graphene materials for metals removal from wastewater Nanomaterials 10 595-7329

Khodadadi Darban A(2020)Hydrocarbon-induced hormesis: 101 years of evidence at the margin? Environmental Pollution 265 114846-465

Abu-Nada A(2018)Water treatment by new-generation graphene materials: Hope for bright future Environmental Science and Pollution Research 25 7315-145

McKay G(2015)Green synthesis of iron nano-impregnated adsorbent for fast removal of fluoride from water Journal of Molecular Liquids 211 457-420

Abdala A(2010)Honeycomb carbon: A review of graphene Chemical Reviews 110 132-332

Agathokleous E(2018)Characterization and evaluation of sorption potential of the iron mine waste after Samarco dam disaster in Doce River basin–Brazil Chemosphere 209 411-2670

Barceló D(2019)Razões para investigar a dimensão organizacional nas origens da catástrofe industrial da Vale em Brumadinho, Minas Gerais, Brasil Cadernos De Saúde Pública 35 e00027319-5338

Tsatsakis A(2021)A porous multifunctional and magnetic layered graphene oxide/3D mesoporous MOF nanocomposite for rapid adsorption of uranium (VI) from aqueous solutions Journal of Industrial and Engineering Chemistry 93 322-11768

Calabrese EJ(2019)Graphene oxide impregnated with iron oxide nanoparticles for the removal of atrazine from the aqueous medium Separation Science and Technology 54 2653-10562