All Outputs (152)

Responsive Photonic Liquid Marbles (2020)
Journal Article
Anyfantakis, M., Jampani, V. S., Kizhakidathazhath, R., Binks, B. P., & Lagerwall, J. P. (2020). Responsive Photonic Liquid Marbles. Angewandte Chemie, 59(43), 19260-19267. https://doi.org/10.1002/anie.202008210

Liquid marbles have potential to serve as mini-reactors for fabricating new materials, but this has been exploited little and mostly for conventional chemical reactions. Here, we uncover the unparalleled capability of liquid marbles to act as platfor... Read More about Responsive Photonic Liquid Marbles.

Stabilisation and destabilisation of Pickering emulsions (2020)
Thesis
Zheng, R. (2020). Stabilisation and destabilisation of Pickering emulsions. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4222903

In this thesis, the stabilisation and destabilisation of Pickering emulsions have been investigated. Organic electrolytes are added to hydrophilic silica and partially hydrophobic polystyrene latex particle dispersions to enable them to stabilise emu... Read More about Stabilisation and destabilisation of Pickering emulsions.

Composite Liquid Marbles as a Macroscopic Model System Representing Shedding of Enveloped Viruses (2020)
Journal Article
Roy, P. K., Binks, B. P., Fujii, S., Shoval, S., & Bormashenko, E. (2020). Composite Liquid Marbles as a Macroscopic Model System Representing Shedding of Enveloped Viruses. Journal of Physical Chemistry Letters, 11(11), 4279-4285. https://doi.org/10.1021/acs.jpclett.0c01230

Copyright © 2020 American Chemical Society. A model macroscopic system imitating the entry of viruses into living cells is suggested. The system represents the contact of a composite (core-shell) liquid marble with hydrophobic/hydrophilic particles.... Read More about Composite Liquid Marbles as a Macroscopic Model System Representing Shedding of Enveloped Viruses.

Stability of bubbles in wax-based oleofoams: decoupling the effects of bulk oleogel rheology and interfacial rheology (2020)
Journal Article
Saha, S., Saint-Michel, B., Leynes, V., Binks, B. P., & Garbin, V. (2020). Stability of bubbles in wax-based oleofoams: decoupling the effects of bulk oleogel rheology and interfacial rheology. Rheologica Acta, 59(4), 255-266. https://doi.org/10.1007/s00397-020-01192-x

Oleofoams are dispersions of gas bubbles in a continuous oil phase and can be stabilized by crystals of fatty acids or waxes adsorbing at the oil-air interface. Because excess crystals in the continuous phase form an oleogel, an effect of the bulk rh... Read More about Stability of bubbles in wax-based oleofoams: decoupling the effects of bulk oleogel rheology and interfacial rheology.

Aqueous foams in the presence of surfactant crystals (2020)
Journal Article
Binks, B. P., & Shi, H. (2020). Aqueous foams in the presence of surfactant crystals. Langmuir : the ACS journal of surfaces and colloids, 36(4), 991-1002. https://doi.org/10.1021/acs.langmuir.9b03862

Aqueous foams are used extensively in many fields and anionic surfactants are commonly used foaming agents. However, potential trouble may arise when they are utilized in hard water areas and/or at low temperatures. Anionic surfactants, like sodium d... Read More about Aqueous foams in the presence of surfactant crystals.

Widely adaptable oil-in-water gel emulsions stabilized by an amphiphilic hydrogelator derived from dehydroabietic acid (2019)
Journal Article
Yan, T., Song, B., Pei, X., Cui, Z., Binks, B. P., & Yang, H. (2020). Widely adaptable oil-in-water gel emulsions stabilized by an amphiphilic hydrogelator derived from dehydroabietic acid. Angewandte Chemie, 59(2), 637-641. https://doi.org/10.1002/anie.201907774

A surfactant, R-6-AO, derived from dehydroabietic acid has been synthesized. It behaves as a highly efficient low-molecular-weight hydrogelator with an extremely low critical gelation concentration (CGC) of 0.18 wt % (4 mm). R-6-AO not only stabiliz... Read More about Widely adaptable oil-in-water gel emulsions stabilized by an amphiphilic hydrogelator derived from dehydroabietic acid.

Capsules from Pickering emulsion templates (2019)
Journal Article
Bago Rodriguez, A. M., & Binks, B. P. (2019). Capsules from Pickering emulsion templates. Current Opinion in Colloid and Interface Science, 44, 107-129. https://doi.org/10.1016/j.cocis.2019.09.006

Following the resurgence of interest in particle-stabilised or Pickering emulsions recently, the preparation of capsules from such templates has become feasible. We review some of the recent activity in this area and focus on both the methods used to... Read More about Capsules from Pickering emulsion templates.

Electrocoalescence of liquid marbles driven by embedded electrodes for triggering bioreactions (2019)
Journal Article
Binks, B. P., Zhang, Y., Fu, X., Guo, W., Deng, Y., & Shum, H. C. (2019). Electrocoalescence of liquid marbles driven by embedded electrodes for triggering bioreactions. Lab on a chip, 19(20), 3526-3534. https://doi.org/10.1039/c9lc00722a

Liquid marbles need to be controlled precisely to benefit applications, for instance, as microreactors on digital microfluidic platforms for chemical and biological assays. In this work, a strategy is introduced to coalesce liquid marbles via electro... Read More about Electrocoalescence of liquid marbles driven by embedded electrodes for triggering bioreactions.

Biphasic biocatalysis using a CO2-switchable Pickering emulsion (2019)
Journal Article
Yu, S., Zhang, D., Jiang, J., Cui, Z., Xia, W., Binks, B. P., & Yang, H. (2019). Biphasic biocatalysis using a CO2-switchable Pickering emulsion. Green chemistry : an international journal and green chemistry resource : GC, 21(15), 4062-4068. https://doi.org/10.1039/c8gc03879a

Biphasic biocatalyses such as the hydrolysis of olive oil and the esterification of octanol with oleic acid were performed in a CO2/N2-switchable Pickering oil-in-water emulsion stabilized by silica nanoparticles hydrophobized in situ by a CO2/N2-swi... Read More about Biphasic biocatalysis using a CO2-switchable Pickering emulsion.

Emulsions stabilized with polyelectrolyte complexes prepared from a mixture of a weak and a strong polyelectrolyte (2019)
Journal Article
Bago Rodriguez, A. M., Binks, B. P., & Sekine, T. (2019). Emulsions stabilized with polyelectrolyte complexes prepared from a mixture of a weak and a strong polyelectrolyte. Langmuir : the ACS journal of surfaces and colloids, 35(20), 6693-6707. https://doi.org/10.1021/acs.langmuir.9b00897

The possibility of stabilizing emulsions with polyelectrolyte complexes (PEC) obtained from the interaction of two non-surface-active oppositely charged polyelectrolytes (PEL) is described. Poly(allylamine hydrochloride) (PAH) and poly(4-styrene sulf... Read More about Emulsions stabilized with polyelectrolyte complexes prepared from a mixture of a weak and a strong polyelectrolyte.

Pickering emulsion-enhanced interfacial biocatalysis: tailored alginate microparticles act as particulate emulsifier and enzyme carrier (2019)
Journal Article
Yang, X., Wang, Y., Bai, R., Ma, H., Wang, W., Sun, H., Dong, Y., Qu, F., Tang, Q., Guo, T., Binks, B. P., & Meng, T. (2019). Pickering emulsion-enhanced interfacial biocatalysis: tailored alginate microparticles act as particulate emulsifier and enzyme carrier. Green chemistry : an international journal and green chemistry resource : GC, 21(9), 2229-2233. https://doi.org/10.1039/c8gc03573c

A robust Pickering emulsion stabilized by lipase-immobilized alginate gel microparticles with a coating of silanized titania nanoparticles is developed for biphasic biocatalysis. The good recyclability and high stability of the proposed interfacial c... Read More about Pickering emulsion-enhanced interfacial biocatalysis: tailored alginate microparticles act as particulate emulsifier and enzyme carrier.

Adsorption and crystallization of particles at the air–water interface induced by minute amounts of surfactant (2018)
Journal Article
Anyfantakis, M., Vialetto, J., Best, A., Auernhammer, G. K., Butt, H. J., Binks, B. P., & Baigl, D. (2018). Adsorption and crystallization of particles at the air–water interface induced by minute amounts of surfactant. Langmuir : the ACS journal of surfaces and colloids, 34(50), 15526-15536. https://doi.org/10.1021/acs.langmuir.8b03233

Controlling the organization of particles at liquid-gas interfaces usually relies on multiphasic preparations and external applied forces. Here, we show that micromolar amounts of a conventional cationic surfactant induce, in a single step, both adso... Read More about Adsorption and crystallization of particles at the air–water interface induced by minute amounts of surfactant.

Quantifying surface properties of silica particles by combining Hansen Parameters and Reichardt's Dye indicator data (2018)
Journal Article
Stauch, C., Süß, S., Luxenhofer, R., Binks, B. P., Segets, D., & Mandel, K. (2018). Quantifying surface properties of silica particles by combining Hansen Parameters and Reichardt's Dye indicator data. Particle and Particle Systems Characterization, 35(12), Article 1800328. https://doi.org/10.1002/ppsc.201800328

To obtain quantitative understanding of the effects of a chemisorbed organic modification on the surface of particles, the use of Reichardt's dye (RD) and Hansen solubility parameter (HSP) is discussed, whereby the S should be understood in terms of... Read More about Quantifying surface properties of silica particles by combining Hansen Parameters and Reichardt's Dye indicator data.

Shape evolution and bubble formation of acoustically levitated drops (2018)
Journal Article
Di, W., Zhang, Z., Li, L., Lin, K., Li, J., Li, X., Binks, B. P., Chen, X., & Zang, D. (2018). Shape evolution and bubble formation of acoustically levitated drops. Physical Review Fluids, 3, Article 103606. https://doi.org/10.1103/PhysRevFluids.3.103606

In this study, we investigated the shape evolution and bubble formation of acoustically levitated drops upon increasing the sound intensity. Here, a levitated liquid drop evolves progressively from an oblate spheroidal shape to a flattened film to a... Read More about Shape evolution and bubble formation of acoustically levitated drops.

Controlled actuation of liquid marbles on a dielectric (2018)
Journal Article
Fu, X., Zhang, Y., Yuan, H., Binks, B. P., & Shum, H. C. (2018). Controlled actuation of liquid marbles on a dielectric. ACS Applied Materials & Interfaces, 10(41), 34822-34827. https://doi.org/10.1021/acsami.8b13111

Motivated by the great potential of droplet microreactors for chemical and biological applications, a general and robust method utilizing an electric field is developed for sustained, directional and two-dimensional manipulation of nonwetting droplet... Read More about Controlled actuation of liquid marbles on a dielectric.

Inducing drop to bubble transformation via resonance in ultrasound (2018)
Journal Article
Zang, D., Li, L., Di, W., Zhang, Z., Ding, C., Chen, Z., Shen, W., Binks, B. P., & Geng, X. (2018). Inducing drop to bubble transformation via resonance in ultrasound. Nature communications, 9(1), Article 3546. https://doi.org/10.1038/s41467-018-05949-0

Bubble formation plays an important role in industries concerned with mineral flotation, food, cosmetics, and materials, which requires additional energy to produce the liquid–gas interfaces. A naturally observed fact is, owing to the effect of surfa... Read More about Inducing drop to bubble transformation via resonance in ultrasound.

Novel stabilisation of emulsions with polyelectrolyte complexes (2018)
Thesis
Bago Rodríguez, A. M. (2018). Novel stabilisation of emulsions with polyelectrolyte complexes. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4221229

The concept of a novel stabiliser of oil-water emulsions has been put forward, being the polyelectrolyte complex (PEC) formed between oppositely charged water-soluble polymers in cases where either polymer alone is incapable of stabilising an emulsio... Read More about Novel stabilisation of emulsions with polyelectrolyte complexes.

Self-propulsion of water-supported liquid marbles filled with sulfuric acid (2018)
Journal Article
Frenkel, M., Dombrovsky, L., Multanen, V., Danchuk, V., Legchenkova, I., Shoval, S., Bormashenko, Y., Binks, B. P., & Bormashenko, E. (2018). Self-propulsion of water-supported liquid marbles filled with sulfuric acid. Journal of Physical Chemistry B, 122(32), 7936-7942. https://doi.org/10.1021/acs.jpcb.8b06136

Self-propulsion of liquid marbles filled with sulfuric acid and coated with hydrophobic fluorosilica powder on a water surface is reported. The prolonged self-propulsion of marbles occurs over a couple of minutes with a typical velocity of the center... Read More about Self-propulsion of water-supported liquid marbles filled with sulfuric acid.

High-Internal-Phase Pickering emulsions stabilized solely by Peanut-Protein-Isolate microgel particles with multiple potential applications (2018)
Journal Article
Jiao, B., Shi, A., Wang, Q., & Binks, B. P. (2018). High-Internal-Phase Pickering emulsions stabilized solely by Peanut-Protein-Isolate microgel particles with multiple potential applications. Angewandte Chemie, 57(30), 9274-9278. https://doi.org/10.1002/anie.201801350

High‐internal‐phase Pickering emulsions have various applications in materials science. However, the biocompatibility and biodegradability of inorganic or synthetic stabilizers limit their applications. Herein, we describe high‐internal‐phase Pickeri... Read More about High-Internal-Phase Pickering emulsions stabilized solely by Peanut-Protein-Isolate microgel particles with multiple potential applications.

Van der Waals Emulsions: Emulsions Stabilized by Surface-Inactive, Hydrophilic Particles via van der Waals Attraction (2018)
Journal Article
Marina, P. F., Cheng, C., Sedev, R., Stocco, A., Binks, B. P., & Wang, D. (2018). Van der Waals Emulsions: Emulsions Stabilized by Surface-Inactive, Hydrophilic Particles via van der Waals Attraction. Angewandte Chemie, 57(30), 9510-9514. https://doi.org/10.1002/anie.201805410

Surface-inactive, highly hydrophilic particles are utilized to effectively and reversibly stabilize oil-in-water emulsions. This is a result of attractive van der Waals forces between particles and oil droplets in water, which are sufficient to trap... Read More about Van der Waals Emulsions: Emulsions Stabilized by Surface-Inactive, Hydrophilic Particles via van der Waals Attraction.