superhydrophobic foams with chemical

Supporting Information Superhydrophobic Foams with Chemical superhydrophobic foams with chemical

Superhydrophobic Foams with Chemical- and Mechanical-Damage-Healing Abilities Enabled by Self-Healing Polymers Yonghao Fu, Fuchang Xu, Dehui Weng, Xiang Li, Yang Li* and Junqi Sun State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University, Changchun 130012, PR China. Superhydrophilic and underwater superoleophobic Ti foam with superhydrophobic foams with chemical Thus, we soaked the as-prepared Ti foam in various organic solvents for 24 h to further evaluate its chemical stability. According to the results illustrated in Fig. 11 d, underwater OCAs slightly decreased but still remained higher than 155, and Fig. S10 showed that the surface morphology is without changes. Related searches superhydrophobic foams with chemical

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Porous materials show superhydrophobic to superhydrophilic superhydrophobic foams with chemical

The dried material presents the organic group on its surface, causing the foams to be superhydrophobic. The structure of these materials has been reported in an earlier paper 15 where we reported that the advancing contact angles on such gels heated to 300 C were 155 2. Plant Polyphenols as Multifunctional Platforms To Fabricate superhydrophobic foams with chemical The superhydrophobic foams were fabricated by in situ growth of -FeOOH nanoparticles on melamine foams that were pretreated by noncovalent surface decoration of plant polyphenolglutaraldehyde cross-linkage, followed by the Michael addition of 1-dodecanethiol to plant polyphenols. The as-prepared superhydrophobic foams had water contact superhydrophobic foams with chemical Pickering High Internal Phase Emulsions Templated Super superhydrophobic foams with chemical In addition, the foams can be recycled and reused directly after each recovery of absorbed oil by simply squeezing due to the excellent compression-resilience property. Since PBA has a low glass transition temperature (T g), the as-prepared PBA-PDMS foams are particularly applicable to use in cold conditions.

Implementing a superhydrophobic substrate in immersed solvent superhydrophobic foams with chemical

The superhydrophobic property leads to the fixation of extracting solvent on the substrate surface during water sampling. To prepare a superhydrophobic substrate, a piece of melamine foam was coated by tannic acid and silica nanoparticles using methyltrimethoxysilane and tetramethyl orthosilicate. Highly Durable Superhydrophobic Polymer Foams Fabricated by superhydrophobic foams with chemical To produce the superhydrophobic foam, micro-sized and nano-sized PTFE particles were melted blended with PP and subsequently foamed. superhydrophobic foams with chemical (n-dodecane and n-hexane). The facile preparation, chemical superhydrophobic foams with chemical Highly Durable Superhydrophobic Polymer Foams Fabricated by superhydrophobic foams with chemical Highly Durable Superhydrophobic Polymer Foams Fabricated by Extrusion and Supercritical CO<sub>2</sub> Foaming for Selective Oil Absorption By Hao-Yang Mi (1583152), Xin Jing (735346), Yuejun Liu (800012), Lengwan Li (4117519), Heng Li (6476), Xiang-Fang Peng (1583143) and Huamin Zhou (1482967)

Gold nanoparticles modified graphene foam with superhydrophobic foams with chemical

Chemical composition of the foam. To investigate the chemical composition of GF/Au/PFDT, EDS analysis was performed in Fig. 2f. The results illuminated the homogenous distribution of carbon, gold, oxygen, fluorine, sulfur and nitrogen in GF/Au/PFDT, consistent with element mapping analysis. Facile Fabrication of Superhydrophobic Copper-Foam and superhydrophobic foams with chemical 2.2. Fabrication of Superhydrophobic Cu Foam The superhydrophobic Cu foams were prepared through a similar method as already reported [31]. The procedure of fabricating the superhydrophobic surface onto Cu foam is briefly illustrated in Scheme1, which includes the chemical etching in FeCl3/HCl mixed solutions to create rough structures and Facile Fabrication of Superhydrophobic Copper- Foam and superhydrophobic foams with chemical The procedure of fabricating the superhydrophobic surface onto Cu foam is briefly illustrated in Scheme 1, which includes the chemical etching in FeCl 3 /HCl mixed solutions to create rough structures and subsequent modification with four sulfhydryl compounds to reduce the surface energies.

Fabrication of a superhydrophobic surface using a simple in superhydrophobic foams with chemical

A superhydrophobic copper foam (CF) with excellent robustness and durability was successfully fabricated by using an in situ growth method combined with surface hexadecanethiol (HDT) modification of HKUST-1/CF. The wettability mechanism for the conversion of the superhydrophilic to superhydrophobic states wa Efficient fabrication of lightweight polyethylene foam with superhydrophobic foams with chemical Superhydrophobic foams with chemical and mechanical damage healing abilities enabled by self-healing polymer ACS Appl. Mater. Interfaces , 11 ( 2019 ) , pp. 37285 - 37294 Carbon nanofiber based superhydrophobic foam composite for superhydrophobic foams with chemical The scheme for the preparation of the superhydrophobic foam composite is shown in Fig. 1a. PDMS possesses outstanding thermal stability and mechanical robustness due to its cross-linked structure and is hence chosen as the oil sorbent in this study.

A Robust and Cost-Effective Superhydrophobic Graphene Foam superhydrophobic foams with chemical

By integrating the high porosity, superior elasticity, and mechanical stability of raw sponge with the chemical stability and hydrophobicity of graphene sheets, the as-fabricated graphene foam not only possesses a rough and superhydrophobic surface, but also exhibits an excellent adsorption performance and extraordinary recyclability for superhydrophobic foams with chemical A Superhydrophobic Sponge with Excellent Absorbency and Flame superhydrophobic foams with chemical Yonghao Fu, Fuchang Xu, Dehui Weng, Xiang Li, Yang Li, Junqi Sun, Superhydrophobic Foams with Chemical- and Mechanical-Damage-Healing Abilities Enabled by Self-Healing Polymers, ACS Applied Materials & Interfaces, 10.1021/acsami.9b11858, (2019). A Robust and CostEffective Superhydrophobic Graphene Foam superhydrophobic foams with chemical By integrating the high porosity, superior elasticity, and mechanical stability of raw sponge with the chemical stability and hydrophobicity of graphene sheets, the asfabricated graphene foam not only possesses a rough and superhydrophobic surface, but also exhibits an excellent adsorption performance and extraordinary recyclability for superhydrophobic foams with chemical

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