Stimuli-responsive nanoparticle self-assembly at complex fluid interfaces: a new insight into dynamic surface chemistry
- Authors
- Heo, Jieun; Seo, Seunghwan; Yun, Hongseok; Ku, Kang Hee
- Issue Date
- Feb-2024
- Publisher
- Royal Society of Chemistry
- Citation
- Nanoscale, v.16, no.8, pp 3951 - 3968
- Pages
- 18
- Indexed
- SCIE
SCOPUS
- Journal Title
- Nanoscale
- Volume
- 16
- Number
- 8
- Start Page
- 3951
- End Page
- 3968
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196752
- DOI
- 10.1039/d3nr05990a
- ISSN
- 2040-3364
2040-3372
- Abstract
- The self-assembly of core/shell nanoparticles (NPs) at fluid interfaces is a rapidly evolving area with tremendous potential in various fields, including biomedicine, display devices, catalysts, and sensors. This review provides an in-depth exploration of the current state-of-the-art in the programmed design of stimuli-responsive NP assemblies, with a specific focus on inorganic core/organic shell NPs below 100 nm for their responsive adsorption properties at fluid and polymer interfaces. The interface properties, such as ligands, charge, and surface chemistry, play a significant role in dictating the forces and energies governing both NP-NP and NP-hosting matrix interactions. We highlight the fundamental principles governing the reversible surface chemistry of NPs and present detailed experimental examples in the following three key aspects of stimuli-responsive NP assembly: (i) stimuli-driven assembly of NPs at the air/liquid interface, (ii) reversible NP assembly at the liquid/liquid interface, including films and Pickering emulsions, and (iii) hybrid NP assemblies at the polymer/polymer and polymer/water interfaces that exhibit stimuli-responsive behaviors. Finally, we address current challenges in existing approaches and offer a new perspective on the advances in this field. Current advances in designing stimuli-responsive core/shell nanoparticle assemblies focus on reversible nanoparticle surface chemistry and experimental methods for air/liquid, liquid/liquid, and polymer interfaces.
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