The Innovation | Virtual Collection—Advanced Materials 先进材料专辑
Introduction: The Innovation has published 158 articles from 2020 to 2021 (Figure 1). The authors come from 29 countries and articles belong to 9 categories (Figure 2), which have been cited by researchers from 78 countries (Source: Web of Science). The Innovation is a multidisciplinary journal covering all natural science fields. To facilitate readers to refer to articles in a specific field, Editorial Team integrates the contents from different Issues to make this Virtual Collection. The Innovation will change to bimonthly publishing in 2022 (Jan, Mar, May, Jul, Sep, Nov).
引言: 从2020到2021,The Innovation出版两卷七期共158篇文章(图1),作者来自29个国家。这些文章分布在9个栏目(图2),已被78个国家作者引用(数据源: Web of Science)。The Innovation是综合性英文期刊,发文内容涵盖所有自然科学领域。为方便读者查看出版的某领域文章,编辑部整合这两年不同刊次的相关内容,陆续推送Virtual Collection(虚拟专辑)……在本刊发表的文章,同时在微信公众号上进行“科普化解读”——尽可能让更多人懂得文章的主旨和亮点:传播科学知识,传承科学素养。自2022年起,The Innovation改为双月刊(出版月份:1、3、5、7、9、11)。
Figure 1 Summary of Publishing (2020—2021)
图1 出版概览(2020—2021年)
Figure 2 Categories of Publishing (2020—2021)
图2 文章全貌(2020—2021年)
About Advanced Materials (v1)
先进材料1.0
Advanced Materials: Good materials make a better life. The development of advanced new materials to better serve the needs of mankind and society is the tireless pursuit of materials scientists. Understanding and establishing the “structure-property-application” relationship is the core theme of materials science research. From atomic-scale to macro-scale, from unitary to multi-components, from single-phase to multi-phases, the evolution of the structure of materials brings unexpectedly magical and colorful properties, enabling various functional applications.
先进材料:材料是人类文明的基石。人类社会的发展史也是一部使用、发现和创造新材料的历史。开发先进新材料从而更好地服务人类和社会需求是材料科学家们孜孜不倦的追求。理解并构建“结构-性质-应用”关系是材料科学研究的核心主题。本次虚拟专辑收录与先进材料的结构、性质和应用相关的Editorial 2篇,Article 2篇,Report 10篇,Commentary 4篇,Review 10篇, Perspective 2篇;共计30篇。
Section 1
Editorials
2D materials: Rising star for future applications
二维材料:未来应用之星
► 点击阅读
Carbon neutrality: Toward a sustainable future
碳中和:通往绿色可持续发展的未来
► 点击阅读
Section 2
Perspective
Topological phononic materials: Computation and data
拓扑声子材料
► 点击阅读
AI-enabled wearable and flexible electronics for assessing full personal exposures
扫二维码|查看原文
https://www.cell.com/the-innovation/fulltext/S2666-6758(20)30031-X
Section 3
Articles
Fast evaporation enabled ultrathin polymeric coatings on nanoporous substrates for highly permeable membranes
5/10000发丝厚度的纳米多孔滤膜
► 点击阅读
Subtle side chain triggers unexpected two-channel charge transport property enabling 80% fill factors and efficient thick-film organic photovoltaics
双通道电荷传输:光伏转换新途径
► 点击阅读
Section 4
Reports
Distance effect of Ni-Pt dual sites for active hydrogen transfer in tandem reaction
双金属串联催化剂亚纳米间距效应
► 点击阅读
Chirality-induced giant unidirectional magnetoresistance in twisted bilayer graphene
魔角石墨烯中的单向电子运动
► 点击阅读
Co3Mo3N - An efficient multifunctional electrocatalyst
三元金属氮化物材料Co3Mo3N—— 究竟有多神奇
► 点击阅读
Liposoluble quinone promotes the reduction of hydrophobic mineral and extracellular electron transfer of Shewanella oneidensis MR-1
疏水界面上的电子搬运工
► 点击阅读
Generic seebeck effect from spin entropy
当热电效应遇到磁性
► 点击阅读
Unusually thick shear-softening surface of micrometer-size metallic glasses
金属玻璃表面超厚软化层的发现
► 点击阅读
Highly efficient conversion of surplus electricity to hydrogen energy via polysulfides redox
削峰填谷,多硫化物解耦电解水制氢
► 点击阅读
Adsorption and desorption mechanisms on graphene oxide nanosheets: Kinetics and tuning
TIRFM实现氧化石墨烯表面吸脱附过程的原位监测
► 点击阅读
Direct conversion of CO2 to a jet fuel over CoFe alloy catalysts
钴铁合金新型催化材料助力碳中性航空燃料合成
► 点击阅读
Enhanced catalytic performance of Pt by coupling with carbon defects
基底材料的缺陷工程-拓扑碳缺陷优化铂ORR活性
► 点击阅读
Section 5
Reviews
Endogenous fluorescence carbon dots derived from food items
食品源碳点:食品中会发光的小精灵
► 点击阅读
Electroreduction of CO2 in ionic liquid-based electrolytes
离子液体体系中电催化还原二氧化碳的研究进展与展望
► 点击阅读
Surface enhanced Raman scattering revealed by interfacial charge-transfer transitions
界面电荷传输 | 半导体表面增强拉曼散射的驱动力
► 点击阅读
Orderly porous covalent organic frameworks-based materials: Superior adsorbents for pollutants removal from aqueous solutions
有序多孔COFs:去除水中污染物的优良吸附剂
► 点击阅读
Artificial structural colors and applications
人工微纳米结构色的多彩世界
► 点击阅读
Intrinsic magnetic topological insulators
本征磁性拓扑材料 — MnBi2Te4体系
► 点击阅读
Nanotechnology-enhanced immunotherapy for metastatic cancer
纳米技术增强免疫治疗有望阻止肿瘤转移和复发
► 点击阅读
Electro-responsive actuators based on graphene
“翩翩起舞”的石墨烯
► 点击阅读
Artificial intelligence: A powerful paradigm for scientific research
人工智能:科学研究新范式
► 点击阅读
Technologies and perspectives for achieving carbon neutrality
碳中和技术与前景
► 点击阅读
Section 6
Commentaries
3D printing challenges in enabling rapid response to public health emergencies
3D打印技术在快速应对突发公共卫生事件中的机遇与挑战
► 点击阅读
Old inspires new: Activation and stabilization of iodine in diene-based rubbers
老树开新花:橡胶材料的新应用
► 点击阅读
Learning from nature for healthcare, energy, and environment
学习自然,点亮未来
► 点击阅读
Reactive resonance and the role of electron angular momentum
扫二维码|查看原文
https://www.cell.com/the-innovation/fulltext/S2666-6758(21)00061-8
期刊简介
扫二维码 | 关注期刊官微
The Innovation 是一本由青年科学家与Cell Press于2020年共同创办的综合性英文学术期刊:向科学界展示鼓舞人心的跨学科发现,鼓励研究人员专注于科学的本质和自由探索的初心。作者们来自全球29个国家;每期1/3-1/4通讯作者来自海外;已被78个国家作者引用。目前有190位编委会成员,来自21个国家;50%编委来自海外;包含1位诺贝尔奖获得者,31位各国院士;领域覆盖全部自然科学。The Innovation已被DOAJ,ADS,Scopus,PubMed等数据库收录。
期刊官网1(Owner):
www.the-innovation.org
期刊官网2(Publisher):
www.cell.com/the-innovation/home
期刊投稿(Submission):
www.editorialmanager.com/the-innovation
商务合作(Marketing):
marketing@the-innovation.org
Logo|期刊标识
See the unseen & change the unchanged
创新是一扇门,我们探索未知;
创新是一道光,我们脑洞大开;
创新是一本书,我们期待惊喜;
创新是一个“1”,我们从此走起。
第2卷第4期 | 第2卷第3期 | 第2卷第2期 | 第2卷第1期 |
第1卷第3期 | 第1卷第2期 | 第1卷第1期 |