Multiphase microreactors based on liquid–liquid and gas–liquid dispersions stabilized by colloidal catalytic particles
D Dedovets, Q Li, L Leclercq… - Angewandte Chemie …, 2022 - Wiley Online Library
Pickering emulsions, foams, bubbles, and marbles are dispersions of two immiscible liquids
or of a liquid and a gas stabilized by surface‐active colloidal particles. These systems can …
or of a liquid and a gas stabilized by surface‐active colloidal particles. These systems can …
Hybrid Janus particles: Challenges and opportunities for the design of active functional interfaces and surfaces
A Kirillova, C Marschelke… - ACS applied materials & …, 2019 - ACS Publications
Janus particles are a unique class of multifunctional patchy particles combining two
dissimilar chemical or physical functionalities at their opposite sides. The asymmetry …
dissimilar chemical or physical functionalities at their opposite sides. The asymmetry …
Janus plasmonic–magnetic gold–iron oxide nanoparticles as contrast agents for multimodal imaging
The design of compact nanoprobes for multimodal bioimaging is a current challenge and
may have a major impact on diagnostics and therapeutics. Multicomponent gold–iron oxide …
may have a major impact on diagnostics and therapeutics. Multicomponent gold–iron oxide …
Janus nanoparticles: Recent advances in their interfacial and biomedical applications
G Agrawal, R Agrawal - ACS Applied Nano Materials, 2019 - ACS Publications
In this contribution, a spotlight is given to Janus nanoparticles, which offer a promising future
for interfacial applications, such as catalysis, and different biomedical purposes ranging from …
for interfacial applications, such as catalysis, and different biomedical purposes ranging from …
Janus particles: from synthesis to application
Janus particles have built momentum in the last years owing to their unique structure and
properties. In this review, we present an overview of the advances in the field of non …
properties. In this review, we present an overview of the advances in the field of non …
Synthesis of polymer Janus particles with tunable wettability profiles as potent solid surfactants to promote gas delivery in aqueous reaction media
Janus particles exhibit a strong tendency to directionally assemble and segregate to
interfaces and thus offer advantages as colloidal analogues of molecular surfactants to …
interfaces and thus offer advantages as colloidal analogues of molecular surfactants to …
Janus and patchy colloids at fluid interfaces
Understanding the fundamental behavior of chemically anisotropic Janus and patchy
particles at fluid interfaces enables utilization of these colloids as solid surfactants for …
particles at fluid interfaces enables utilization of these colloids as solid surfactants for …
Janus particles at fluid interfaces: Stability and interfacial rheology
EL Correia, N Brown, S Razavi - Nanomaterials, 2021 - mdpi.com
The use of the Janus motif in colloidal particles, ie, anisotropic surface properties on
opposite faces, has gained significant attention in the bottom-up assembly of novel …
opposite faces, has gained significant attention in the bottom-up assembly of novel …
Current status and future developments in preparation and application of nonspherical polymer particles
B Yu, H Cong, Q Peng, C Gu, Q Tang, X Xu… - Advances in Colloid and …, 2018 - Elsevier
Nonspherical polymer particles (NPPs) are nano/micro-particulates of macromolecules that
are anisotropic in shape, and can be designed anisotropic in chemistry. Due to shape and …
are anisotropic in shape, and can be designed anisotropic in chemistry. Due to shape and …
Surface tension anomaly observed for chemically-modified Janus particles at the air/water interface
S Razavi, LM Hernandez, A Read, WL Vargas… - Journal of colloid and …, 2020 - Elsevier
The behavior of Janus particles fabricated from core silica particles decorated with gold
nanoparticles on one hemisphere is studied at the air/water interface. An unexpected …
nanoparticles on one hemisphere is studied at the air/water interface. An unexpected …