MRX特刊征稿|Focus on Hybrid Magnetic-Plasmonic Materials
特刊详情
客座编辑
- José Guadalupe Quiñones Galvan,墨西哥瓜达拉哈拉大学
- Laura Patricia Rivera Reséndiz,墨西哥瓜达拉哈拉大学
主题范围
Schematic illustration of a hybrid magnetic-plasmonic core-shell nanoparticle, showing a magnetic iron oxide core and a gold plasmonic shell. *Image generated using the generative artificial intelligence tool DALL·E (OpenAI) and reviewed by the guest editors for scientific accuracy.
Hybrid magnetic-plasmonic materials combine magnetic components with metals that strongly interact with light, enabling new ways to control optical and magnetic properties within a single system. These materials have attracted growing interest due to their potential in areas such as sensing, photonics, catalysis, and biomedicine. By bringing together magnetic responsiveness and light-driven effects, they open opportunities for multifunctional platforms with enhanced performance and new capabilities.
This focus collection aims to showcase recent advances in the design, synthesis, modelling and understanding of hybrid magnetic-plasmonic materials. The field is developing rapidly, driven by improved fabrication methods and increasing interest in applications that require precise control of light and matter at small scales. We seek to highlight both fundamental studies and application-oriented research, providing an up-to-date overview of progress and emerging directions.
Topics of interest include, but are not limited to:
- Synthesis, fabrication and characterization of hybrid magnetic-plasmonic materials
- Optical and magnetic properties and their interplay
- Nanostructures, thin films, and composite systems
- Applications in sensing, imaging, and photonic devices
- Light-driven processes and catalytic activity
- Biomedical and environmental applications
- Theoretical and computational studies
投稿流程
特刊文章与MRX期刊常规文章遵循相同的审稿流程和内容标准,并采用同样的投稿模式。
有关准备文章及投稿的详细信息,可以参阅IOPscience页面的作者指南。
作者可登入期刊主页进行在线投稿,先选择“文章类型”,然后在“选择特刊”的下拉框中选择“Focus on Hybrid Magnetic-Plasmonic Materials”。
投稿截止日期:2026年10月31日。
期刊介绍

- 2025年影响因子:2.5 Citescore:4.3
- Materials Research Express (MRX)采用快速出版的模式,发表各类功能材料在设计、制造、性能和应用方面的最新研究。从2020年起,MRX转变为金色开放获取出版模式,以最大限度地传播材料科学的所有领域的研究。文章内容包括:生物材料;纳米材料和纳米技术;碳的同素异形体和二维材料;电子材料;玻璃、陶瓷和非晶材料;磁性材料;金属和合金;光子材料和超材料;聚合物和有机化合物;智能材料;薄膜等。