Natural Rice Starch Granules for Green Cleaning

et al. 2021

Macromolecules

Self Cite

Herein, fast interfacial polymerization (FIP) of highly reactive ethyl α-cyanoacrylate (ECA) monomers triggered by water-soluble initiators is demonstrated as a brand new method for instantly providing a strong steric barrier at the oil−water interface to effectively stabilize waterin-oil emulsions and microcapsule dispersions without the assistance of additive interface-active agents. Compared with emulsions stabilized by synthetic surfactants, amphiphilic polymers, and solid particles, such emulsions exhibit unique and attractive properties. Although polyECA polymers are hydrophilic, water-in-oil emulsions are anomalously produced through the FIP method. By regulating the polymerization rate, the interfacial coverage of irreversibly absorbing polymers can reach 100% within only 15 s, which is also considered to form a microcapsule dispersion. Besides, this emulsification method is readily applicable to prepare high-internal-phase-emulsion-like (HIPE-like) systems with an internal-phase volume fraction of 75.0% and generate stable monodispersed droplets via a microfluidic technique. The self-stabilizing encapsulation process through the FIP method presented in this work does open a new sight in the research field of both emulsions and microcapsules and may possess promising industrial applications in multiple areas.

Section: ■ Results and Discussionmentioning

confidence: 98%

Self-Stabilizing Encapsulation through Fast Interfacial Polymerization of Ethyl α-Cyanoacrylate: From Emulsions to Microcapsule Dispersions

Lian

et al. 2021

Macromolecules

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“…Preparation and Characterization of CaC 2 Nanoparticles. A scalable off-shoot of the nanoparticle fabrication method referred to as ball milling 28,29 was used to prepare calcium carbide (CaC 2 ) nanoparticles in large quantities. This top-down method minimizes the need for tedious synthetic and separation processes, owning attractive advantages in elegant simplicity and generality.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Three Birds with One Stone: Injectable CaC₂ Nanobombs with Triple Effects for Minimally Invasive Tumor Chemical Ablation

Zeng

et al. 2020

ACS Appl. Bio Mater.

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Percutaneous chemical ablation (PCA) is the oldest and most established technique for treating small solid tumors in organs. It has been widely used in clinics even on an outpatient basis. However, compared with the emerging microwave or magnetic hyperthermal ablation, PCA is faced with relatively poor necrosis results and needs to repeat multiple sessions. Inspired by the three effects in the bomb’s explosive process, we herein expect to combine calcium carbide (CaC2) nanoparticles into the PCA technique to generate local explosion within tumor tissues, leading to three killing effects against tumors to further improve the ablation efficacy of PCA. Through an efficient wet milling procedure with poly(ethylene glycol), three kinds of nanobombs including CaC2, calcium oxide (CaO), and calcium hydroxide (Ca(OH)2) were fabricated, and they all exhibited desirable suspension stability. Among these nanobombs, in particular CaC2 nanobombs showed a synergistic effect that the generation of ethyne gas bubbles could facilitate the most rapid diffusion of hyperthermia. Also, CaC2 nanobombs offered the powerful ability to cause the sudden rise of local high temperature and pH value. According to the in vivo mice tumor excision trial, the tumors of 75% of cases that received CaC2 treatment were destroyed and eradicated, exhibiting the excellent ablation ability of CaC2 nanobombs against small solid tumors planted in mice.

“…Among them, physical cleaning methods include but are not limited to manual operation, ultrasonic, and sandblasting, which can be damaging to cultural relics. In some cases, chemical cleaning, relying on dissolution or dispersion , methods, can provide a gentler alternative. Unfortunately, when organic solvents are used for cleaning discolored coatings, owing to the low surface tension of organic solvents, the surfaces are usually characterized by high wettability along with the uncontrollable cleaning position, which further leads to the cross-contamination of dissolved discolored coatings along with the diffusion of cleaning solution in the width and depth directions.…”

Section: Introductionmentioning

confidence: 99%

Self-Shaping Microemulsion Gels for Cultural Relic Cleaning

et al. 2021

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Cleaning is a foundational and essential operation of protection and restoration of cultural relics, which is also the key step of follow-up works. To overcome the problems of uncontrollable diffusion of cleaning solvents and poor coverage of the cleaning solvent carriers on rough surfaces, here, we propose a strategy of using a self-shaping microemulsion gel that is prepared via emulsifying oleophilic solvents into the specific shear-thinning hydrogel structures. The gel can adaptively cover rough surfaces during the cleaning process coupled with avoidance of unnecessary diffusion of the cleaning solvents, and the mechanical reinforcement of in situ polymerized double-network gels enables its easy peeling off from the surfaces without leaving determinable residues. As a representative demonstration, Paraloid B72, a widely used material for the repair and reinforcement of cultural relics, is employed as a model discolored coating, which can be effectively removed from the rough surface of simulated cultural relics after treatment with the resulting gels. Convincingly, the strategy of constructing agarose/polyacrylamide hybrid double-network gels with shear-thinning and self-shaping performances for the cleaning of cultural relics not only improves the convenience and accuracy of operation but also exhibits an efficient cleaning effect, which will greatly expand the application of microemulsion gels in the cleaning of rough surfaces of cultural relics.