Gel Emulsion Based on Amphiphilic Block Copolymer: A Template to Develop Porous Polymeric Monolith for the Efficient Adsorption of Volatile Organic Compounds

Abstract: The fabrication of adsorbents for volatile organic compounds (VOCs) always attains significant research interest for the industrialized civilization. Herein, we report the fabrication of a new class of porous polymeric monolith for the efficient adsorption of VOCs. In this case, a gel emulsion stabilized by poly­(oligo­(ethylene glycol) methyl ether methacrylate)-b-polystyrene (POEGMA-b-PS), an amphiphilic block copolymer (BCP), was successfully used as the template for the development of a porous monolith hav… Show more

“…It is well known that the preparation of functional porous monoliths based on gel emulsions as templates is one of the most essential applications. [61][62][63][64] As exhibited in Fig. 1a, a series of gel emulsions were prepared.…”

High performance microwave absorption of light weight and porous non-carbon-based polymeric monoliths via a gel emulsion template

“…It is well known that the preparation of functional porous monoliths based on gel emulsions as templates is one of the most essential applications. [61][62][63][64] As exhibited in Fig. 1a, a series of gel emulsions were prepared.…”

High performance microwave absorption of light weight and porous non-carbon-based polymeric monoliths via a gel emulsion template

“…After polymerization, washing and drying, the resulting white solid showed pore sizes in the range of 5-50 μm, a minimum density of 0.08 g cm −3 , very high resistance to water, and a water contact angle of ≈120°. [120] St/EHA/DVB-based emulsion-templated tubular membranes were prepared by molding a very viscous white HIPE into thin layers between flat plates, separated by poly(ethylene terephthalate) films, and subsequently polymerized. Afterward, the resulting membranes were impregnated with ionophores, graphite particles, electron mediators, and enzymes.…”

“…The adsorption capacities of these monoliths, 907 mg g −1 for benzene and 777 mg g −1 for toluene, were quite high. [120] The P(St-co-VBC-co-DVB) HIPE-templated monoliths were found to immobilize chemical warfare agents (CWAs) such as sulfur mustard, isopropyl methyl phosphonofluoridate, diethylaminoethyl O-ethyl methylphosphonothioate, diethylaminoethyl O-isobutyl methylphosphonothioate, diethylaminoethyl O-butyl methylphosphonothioate, diisopropylaminoethyl O-ethyl methylphosphonothioate, and bis(2-chloroethyl) sulfide. The adsorption of these CWAs was increased by increasing the VBC content and the volume of the internal phase emulsion, which could be positively correlated with the swelling.…”

“…The adsorption capacities of these monoliths, 907 mg g −1 for benzene and 777 mg g −1 for toluene, were quite high. [ 120 ]…”

“…After polymerization, washing and drying, the resulting white solid showed pore sizes in the range of 5–50 µm, a minimum density of 0.08 g cm −3 , very high resistance to water, and a water contact angle of ≈120°. [ 120 ]…”

Fundamentals and Design‐Led Synthesis of Emulsion‐Templated Porous Materials for Environmental Applications

Cellulose nanofiber-derived efficient stabilizer for oil-in-water high-internal-phase emulsion