Three-dimensional attapulgite with sandwich-like architecture used for multifunctional water remediation

[1]  Jian Li,et al.  Efficient separation of free organic liquid mixtures based on underliquid superlyophobic coconut shell coated meshes , 2020 .

[2]  Jian Li,et al.  Facile fabrication of superhydrophobic copper hydroxide coated mesh for effective separation of water-in-oil emulsions , 2020, Separation and Purification Technology.

[3]  Jian Li,et al.  Facile preparation of loess-coated membranes for multifunctional surfactant-stabilized oil-in-water emulsion separation , 2019, Green Chemistry.

[4]  Dongyun Chen,et al.  Robust and durable self-healing superhydrophobic polymer-coated MWCNT film for highly efficient emulsion separation , 2019, Environmental Science: Nano.

[5]  Hongtao Yu,et al.  Direct growth of ultra-permeable molecularly thin porous graphene membranes for water treatment , 2018 .

[6]  Jian Li,et al.  Superwettable Coprinus comatus coated membranes used toward the controllable separation of emulsified oil/water mixtures , 2018, Journal of Membrane Science.

[7]  Jian Jin,et al.  Zwitterionic Nanohydrogel Grafted PVDF Membranes with Comprehensive Antifouling Property and Superior Cycle Stability for Oil‐in‐Water Emulsion Separation , 2018, Advanced Functional Materials.

[8]  Dianzeng Jia,et al.  Sulfonated graphene oxide as an adsorbent for removal of Pb2+ and methylene blue. , 2018, Journal of colloid and interface science.

[9]  Zongxue Yu,et al.  A novel reduced graphene oxide-based composite membrane prepared via a facile deposition method for multifunctional applications: oil/water separation and cationic dyes removal , 2018 .

[10]  J. Lead,et al.  A novel method for the synergistic remediation of oil-water mixtures using nanoparticles and oil-degrading bacteria. , 2018, The Science of the total environment.

[11]  J. Piekutin,et al.  Use of porous materials to remove oil contaminants from water. , 2018, The Science of the total environment.

[12]  Ke-Qin Zhang,et al.  Rational design of materials interface at nanoscale towards intelligent oil-water separation. , 2018, Nanoscale horizons.

[13]  B. Ding,et al.  Biomimetic Multilayer Nanofibrous Membranes with Elaborated Superwettability for Effective Purification of Emulsified Oily Wastewater. , 2018, ACS applied materials & interfaces.

[14]  Yen Wei,et al.  Preparation of DOPA-TA Coated Novel Membrane for Multifunctional Water Decontamination , 2018 .

[15]  Q. Lu,et al.  Polypropylene Nonwoven Fabric@Poly(ionic liquid)s for Switchable Oil/Water Separation, Dye Absorption, and Antibacterial Applications. , 2018, ChemSusChem.

[16]  Yan Zhao,et al.  Low cost and facile preparation of robust multifunctional coatings with self-healing superhydrophobicity and high conductivity , 2018 .

[17]  Yen Wei,et al.  Superwetting copper meshes based on self-organized robust CuO nanorods: efficient water purification for in situ oil removal and visible light photodegradation. , 2018, Nanoscale.

[18]  Jian Li,et al.  Underoil superhydrophilic desert sand layer for efficient gravity-directed water-in-oil emulsions separation with high flux , 2018 .

[19]  Wei Wang,et al.  Gravity driven ultrafast removal of organic contaminants across catalytic superwetting membranes , 2017 .

[20]  Qiong Wang,et al.  Multifunctional walnut shell layer used for oil/water mixtures separation and dyes adsorption , 2017 .

[21]  Weerapha Panatdasirisuk,et al.  Separation of Oil-in-Water Emulsions Using Hydrophilic Electrospun Membranes with Anisotropic Pores. , 2017, Langmuir : the ACS journal of surfaces and colloids.

[22]  Na Liu,et al.  Superwetting Porous Materials for Wastewater Treatment: from Immiscible Oil/Water Mixture to Emulsion Separation , 2017 .

[23]  Huaping Wu,et al.  Smart design of wettability-patterned gradients on substrate-independent coated surfaces to control unidirectional spreading of droplets. , 2017, Soft matter.

[24]  Zixi Kang,et al.  Surface wettability switching of metal-organic framework mesh for oil-water separation , 2017 .

[25]  Gordon H. Huang,et al.  Emerging usage of electrocoagulation technology for oil removal from wastewater: A review. , 2017, The Science of the total environment.

[26]  Wei-min Liu,et al.  Fluorinated Candle Soot as the Lubricant Additive of Perfluoropolyether , 2017, Tribology Letters.

[27]  Huaping Wu,et al.  Wetting and Dewetting Transitions on Submerged Superhydrophobic Surfaces with Hierarchical Structures. , 2017, Langmuir : the ACS journal of surfaces and colloids.

[28]  M. Kavalenka,et al.  Adaptable bioinspired special wetting surface for multifunctional oil/water separation , 2017, Scientific Reports.

[29]  Xiaohong Li,et al.  Multifunctional ultrathin aluminum foil: oil/water separation and particle filtration , 2016 .

[30]  Lei Jiang,et al.  Recycling of PE glove waste as highly valuable products for efficient separation of oil-based contaminants from water , 2016 .

[31]  Jianyong Yu,et al.  Electrospun nanofibrous materials: a versatile medium for effective oil/water separation , 2016 .

[32]  D. Xiao,et al.  Pumpkin-Derived Porous Carbon for Supercapacitors with High Performance. , 2016, Chemistry, an Asian journal.

[33]  Yi He,et al.  A modified mussel-inspired method to fabricate TiO2 decorated superhydrophilic PVDF membrane for oil/water separation , 2016 .

[34]  X. Hou,et al.  Oil‐Water Separation: A Gift from the Desert , 2016 .

[35]  Myung-Geun Jeong,et al.  Fabrication of superhydrophobic fibre and its application to selective oil spill removal , 2016 .

[36]  Jian Li,et al.  Superhydrophobic meshes that can repel hot water and strong corrosive liquids used for efficient gravity-driven oil/water separation. , 2016, Nanoscale.

[37]  Cai Zhijiang,et al.  Preparation and dye filtration property of electrospun polyhydroxybutyrate–calcium alginate/carbon nanotubes composite nanofibrous filtration membrane , 2016 .

[38]  Zhaoyang Liu,et al.  Flexible Hierarchical TiO2/Fe2O3 Composite Membrane with High Separation Efficiency for Surfactant-Stabilized Oil-Water Emulsions. , 2016, Chemistry, an Asian journal.

[39]  Yuanhua Lin,et al.  Graphene–carbon nanotube aerogel as an ultra-light, compressible and recyclable highly efficient absorbent for oil and dyes , 2016 .

[40]  Liurong Shi,et al.  Microscopic Dimensions Engineering: Stepwise Manipulation of the Surface Wettability on 3D Substrates for Oil/Water Separation , 2016, Advanced materials.

[41]  Z. Lei,et al.  A prewetting induced underwater superoleophobic or underoil (super) hydrophobic waste potato residue-coated mesh for selective efficient oil/water separation , 2016 .

[42]  Yen Wei,et al.  Ultralight free-standing reduced graphene oxide membranes for oil-in-water emulsion separation , 2015 .

[43]  A. Ismail,et al.  A novel super-hydrophilic PSf/HAO nanocomposite ultrafiltration membrane for efficient separation of oil/water emulsion , 2015 .

[44]  U. Farooq,et al.  Photoinduced switchable underwater superoleophobicity–superoleophilicity on laser modified titanium surfaces , 2015 .

[45]  Lei Jiang,et al.  Superwetting Surfaces under Different Media: Effects of Surface Topography on Wettability. , 2015, Small.

[46]  Stefan Seeger,et al.  Oil/water separation with selective superantiwetting/superwetting surface materials. , 2015, Angewandte Chemie.

[47]  Naiqing Zhang,et al.  pH-controllable on-demand oil/water separation on the switchable superhydrophobic/superhydrophilic and underwater low-adhesive superoleophobic copper mesh film. , 2015, Langmuir : the ACS journal of surfaces and colloids.

[48]  Lei Jiang,et al.  Facile and Large‐Scale Fabrication of a Cactus‐Inspired Continuous Fog Collector , 2014 .

[49]  Lei Jiang,et al.  An Intelligent Superwetting PVDF Membrane Showing Switchable Transport Performance for Oil/Water Separation , 2014, Advanced materials.

[50]  Weiqiao Deng,et al.  Robust and all-inorganic absorbent based on natural clay nanocrystals with tunable surface wettability for separation and selective absorption , 2014 .

[51]  Lei Jiang,et al.  Salt-induced fabrication of superhydrophilic and underwater superoleophobic PAA-g-PVDF membranes for effective separation of oil-in-water emulsions. , 2014, Angewandte Chemie.

[52]  Hua Lai,et al.  Underwater superoleophilic to superoleophobic wetting control on the nanostructured copper substrates. , 2013, ACS applied materials & interfaces.

[53]  Feng Zhang,et al.  A novel zwitterionic polyelectrolyte grafted PVDF membrane for thoroughly separating oil from water with ultrahigh efficiency , 2013 .

[54]  Aiqin Wang,et al.  Effect of number of grindings of attapulgite on enhanced swelling properties of the superabsorbent nanocomposites , 2013 .

[55]  J. Zhai,et al.  Photo-induced water–oil separation based on switchable superhydrophobicity–superhydrophilicity and underwater superoleophobicity of the aligned ZnO nanorod array-coated mesh films , 2012 .

[56]  Wonjae Choi,et al.  Hygro-responsive membranes for effective oil–water separation , 2012, Nature Communications.

[57]  Aiqin Wang,et al.  Removal of Cu(II) from aqueous solution by adsorption onto acid-activated palygorskite. , 2007, Journal of hazardous materials.

[58]  Aiqin Wang,et al.  Adsorption characteristics of Cd(II) from aqueous solution onto activated palygorskite , 2007 .

[59]  Sanja Potgieter-Vermaak,et al.  Heavy metals removal from solution by palygorskite clay , 2006 .