材料科学
双层
纳米尺度
化学物理
纳米技术
静电学
神经形态工程学
离子
分子动力学
自组装
电荷(物理)
膜
离子键合
接口(物质)
软物质
纳米结构
离子运输机
脂质双层
皮克林乳液
胶体
纳米流体学
化学工程
化学
夹持器
作者
Xuefei Wu,Han Xue,Zachary Fink,Zhiqin Xia,Nivedina A. Sarma,Xuchen Gan,John Katsaras,Xianghui Xiao,Behzad Rad,Brett A. Helms,Paul D. Ashby,Ahmad Omar,C. Patrick Collier,Thomas P. Russell
标识
DOI:10.1073/pnas.2522349123
摘要
Despite their adaptability and mechanical stability, Pickering emulsions based on the interfacial assembly of colloidal particles have not found use in iontronics, since the dense interfacial packing of micron-sized particles precludes functional connectivity between two droplets. Here, we introduce a chemically reconfigurable droplet interface bilayer (DIB) platform based on the interfacial assembly of nanoparticle-surfactants (NPSs) that enables spontaneous or field-induced formation of ion-conducting nanochannels, eliminating the need of ionophores or nanochannel-forming proteins. These nanoscopic channels emerge from packing defects in the jammed interfacial assemblies of the charged NPSs and support size and charge selective, hysteretic ion transport governed by interfacial electrostatics and dimensional constraints. The NPS-DIBs show short-term and long-term plasticity, hallmarks of neuromorphic behavior, that are mediated by the structural and chemical design of the bilayer. These assemblies establish a versatile, chemically tunable platform that couples soft-matter mechanics with interfacial ionic functionality, offering a robust foundation for soft iontronic systems.
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