为庆贺 2022 年东南大学壹佰贰拾周年校庆,英国皇家化学会和东南大学成功举办了 2022 青年学者论坛。并在此基础上,共同发起了以 Nanoscale Horiz. 和 Mater. Horiz. 联名的校庆专辑,主题为“New Horizons in materials for energy conversion, optics and electronics”。
专辑特邀东南大学王金兰教授、张袁健教授,新加坡国立大学 Seeram Ramakrishna 教授,德州大学奥斯汀分校余桂华教授担任客座编辑,侧重(纳米)材料的能量转换和光电领域的应用,并概述了最常用的能量转换和存储理论与试验方法。
本专辑现已上线并将持续更新,本文为您介绍该专辑中的 7 篇论文,更多内容欢迎访问RSC官网。
专辑论文
Surface acoustic wave induced phenomena in two-dimensional materials
Xuchen Nie, Xiaoyue Wu, Yang Wang, Siyuan Ban, Zhihao Lei, Jiabao Yi, Ying Liu and Yanpeng Liu
通讯作者:聂需辰、刘衍朋、刘颖(南京航空航天大学)Summary
Surface acoustic wave (SAW)–matter interaction provides a fascinating key for inducing and manipulating novel phenomena and functionalities in two-dimensional (2D) materials. 
Nanoscale Horiz., 2023, Advance Article
https://dx.doi.org/10.1039/D2NH00458E
Flexible-in-rigid polycrystalline titanium nanofibers: a toughening strategy from a macro-scale to a molecular-scale
Wanlin Fu, Wanlin Xu, Kuibo Yin, Xiangyu Meng, Yujie Wen, Luming Peng, Mingyu Tang, Litao Sun, Yueming Sun and Yunqian Dai
通讯作者:代云茜(东南大学)Summary
Electrospun TiO₂ nanofibers could be reinforced from a macro-scale to a molecular-scale, by promoting length–diameter ratio, suppressing crystal sintering, repairing surface grooves, constructing lubrication zones, and toughening chemical bonds. 
Mater. Horiz., 2023, Advance Article
https://dx.doi.org/10.1039/D2MH01255C
High-specificity molecular sensing on an individual whispering-gallery-mode cavity: coupling-enhanced Raman scattering by photoinduced charge transfer and cavity effects
Xingce Fan, Ru Wang, Mingze Li, Xiao Tang, Chunxiang Xu, Qi Hao and Teng Qiu
通讯作者:邱腾、徐春祥(东南大学)Summary
This work proposes an ultrasensitive and high-specificity whispering-gallery-mode (WGM) sensing method, which combines the light-matter interaction enhancement on a WGM cavity and the “fingerprint spectrum” of surface-enhanced Raman scattering. 
Nanoscale Horiz., 2023, Advance Article
https://dx.doi.org/10.1039/D2NH00450J
Highly efficient electrocatalytic biomass valorization over a perovskite-derived nickel phosphide catalyst
Wanbing Gong, Jiayi Li, Jun Ma, Dong Liu, Ran Long and Yujie Xiong
通讯作者:刘东、熊宇杰(中国科学技术大学)Summary
A perovskite-derived nickel phosphide catalyst exhibits excellent electrocatalytic oxidation performance for biomass valorization to replace the competitive oxygen evolution reaction. 
Nanoscale Horiz., 2022, Advance Article
https://dx.doi.org/10.1039/D2NH00391K
In situ crafting of a 3D N-doped carbon/defect-rich V2O5−x·nH2O nanosheet composite for high performance fibrous flexible Zn-ion batteries
Rui Pan, Anqi Zheng, Bing He, Yuwei Xiong, Fengsai Han, Lei Wei, Qingwen Li, Qichong Zhang, Kuibo Yin and Litao Sun
通讯作者:尹奎波、孙立涛(东南大学)、李清文、张其冲(中科院苏州纳米技术与纳米仿生研究所)Summary
In situ anodic oxidation strategy is demonstrated to fabricate flexible long-life and high-capacity aqueous zinc-ion batteries adopting a 3D N-doped/defect-rich V₂O₅−x·nH₂O nanosheets as fibrous cathodes and Zn nanosheets arrays as the anode. 
Nanoscale Horiz., 2022, 7, 1501-1512
https://dx.doi.org/10.1039/D2NH00349J
Cu and Si co-doping on TiO2 nanosheets to modulate reactive oxygen species for efficient photocatalytic methane conversion
Jun Ma, Jingxiang Low, Di Wu, Wanbing Gong, Hengjie Liu, Dong Liu, Ran Long and Yujie Xiong
通讯作者:刘东、龙冉、熊宇杰(中国科学技术大学)Summary
The Cu and Si co-doping could rationally regulate the electronic structure of TiO₂nanosheets and maneuver the reactive oxygen species for methane activation, which achieves significant photocatalytic methane conversion into ethane. 
Nanoscale Horiz., 2023, Advance Article
https://dx.doi.org/10.1039/D2NH00457G
Achieving circularly polarized luminescence and large piezoelectric response in hybrid rare-earth double perovskite by a chirality induction strategy
Chang-Feng Wang, Chao Shi, Anyi Zheng, Yilei Wu, Le Ye, Na Wang, Heng-Yun Ye, Ming-Gang Ju, Pengfei Duan, Jinlan Wang and Yi Zhang
通讯作者:段鹏飞(国家纳米科学中心)、巨明刚、王金兰(东南大学)、张毅(浙江师范大学)Summary
A pair of 3D hybrid rare-earth double perovskites with large piezoelectric responses and CPL was constructed by introducing chirality. This study provides a strategy to prepare high-performance molecule-based piezoelectric and CPL materials. 
Mater. Horiz., 2022, 9, 2450-2459
https://dx.doi.org/10.1039/D2MH00698G
相关期刊
rsc.li/materials-horizons
Mater. Horiz.
| 2-年影响因子* | 15.717分 |
| 5-年影响因子* | 16.152分 |
| 最高 JCR 分区* | Q1 材料-综合 |
| CiteScore 分† | 19.2分 |
| 中位一审周期‡ | 36 天 |
Materials Horizons 是材料科学领域的领导性期刊,发表高质量、高创新性的研究成果。该期刊侧重于原创性研究,强调所发表的论文要提出新的概念或新的思维方式(概念上的进展),而不是以报道技术方面的进展为主。当然,在概念上未有创新但实现了突破性进展的杰出工作(例如材料性能突破已有纪录)也有被发表的机会。另外,该刊要求所发表的论文能引起材料科学各领域读者的广泛兴趣。
rsc.li/nanoscale-horizons
Nanoscale Horiz.
| 2-年影响因子* | 11.684分 |
| 5-年影响因子* | 11.921分 |
| 最高 JCR 分区* | Q1 材料-综合 |
| CiteScore 分† | 17.8分 |
| 中位一审周期‡ | 45 天 |
Nanoscale Horizons 是纳米科学与技术领域的领导性期刊,发表高质量、高创新性的研究成果。该期刊侧重于原创性研究,强调所发表的论文要提出新的概念或新的思维方式(概念上的进展),而不是以报道技术方面的进展为主。当然,在概念上未有创新但实现了突破性进展的杰出工作(例如材料性能突破已有纪录)也有被发表的机会。另外,该刊要求所发表的论文能引起纳米科学与技术各领域读者的广泛兴趣。该刊由英国皇家化学会同中国国家纳米科学中心共同出版。
* 2021 Journal Citation Reports (Clarivate, 2022)
† CiteScore 2021 by Elsevier
‡ 中位数,仅统计进入同行评审阶段的稿件