CAS article collection: Materials Today
Nano research from Chinese Academy Sciences
Introduction
Nanoscience and technology represents one of the most dynamic and promising areas of materials science – in terms of both fundamental science and the potential for far reaching applications that impact all aspects of our lives.
From the remote Stone Age, through the Bronze and Iron Ages, to the Atom Age and Information Age, the evolution of materials records the milestones in the history of human civilization. Being the bottleneck or the breakthrough, materials are critical and are impacting multiple disciplines and fields. Looking at materials science today – especially in China – research is blooming, in part demonstrated by an increase in publications of more than 300% in the past decade. In this special article collection, Elsevier’s Materials Today family is delighted to highlight the groundbreaking nanoscience and technology research being performed by researchers at the Chinese Academy of Sciences (CAS). These articles illustrate the innovation and critical thinking in the materials field as well as the supportive touch of materials research with other fields such as physics, chemistry, energy, health etc. This work demonstrates just a fraction of the cutting edge work being performed at CAS institutes: much more of which can be found via the comprehensive collection S’ouvre dans une nouvelle fenêtre of journals that comprise Elsevier’s Materials Today family.
This article collection has been compiled in celebration of ChinaNANO 2019, which brings together researchers from across this rapidly growing community to share work and provide a forum for both discussion and the building of fruitful collaborations. Materials Today is delighted to contribute to the ChinaNANO program with a special Topical Session entitled “Materials Today: The Future of Materials Science S’ouvre dans une nouvelle fenêtre" on 17th August. We invite all delegates of ChinaNANO 2019 to join us in this session, featuring invited presentations by four leading researchers, and a special Publishing Workshop discussing the rapidly evolving landscape of scholarly publishing.
Professor Ze Zhang
Editor in Chief, Materials Today Nano Zhejiang University, China
Dr Christiane Barranguet
Publishing Director, Materials Today Elsevier
With thanks to the Article Selection Editor
Professor Ze Zhang Editor in Chief, Materials Today Nano School of Materials Science and Engineering, Zhejiang University, China
Dr. Ze Zhang received his Ph.D in 1987 from the Institute of Metal Research, Chinese Academy of Sciences and worked as a research professor from 1991- 2003 in an Electron Microscopy Center of Chinese Academy of Science. He was a professor at Beijing University of Technology between 2003-2010, and has been a professor of Zhejiang University since 2010.His research interests focus on electron microscopy study of advanced materials. He was one of the earlier researchers worked on quasicrystals in 1980s. In recent years, Prof. Zhang together with his research team have developed an advanced microscopy technique, with which in-situ external field can be introduced into the microscope retaining the atomic resolution. They successfully apply this advanced technique on in-situ electron microstructure study of the size effects of structural materials. Some new phenomena and laws are dug out with regard to the relation between special properties and structure evolution. Moreover, the mechanism of the unusual transformation in nano-scale for the classic metal materials is revealed.Prof. Dr. Zhang was elected as a member of Chinese Academy of Sciences in 2001. Now he serves as the chair of Academic Committee board of Zhejiang University since 2012. He is the author of more than 260 papers published in international peer-reviewed journals. He is a Chief Scientist of national basic research program of China, the President of China Association for Instrumental Analysis, and the President of Asia Pacific Electron Microscopy Association since 2012.
Article collections
Selected Publications from Materials Today flagship journals
Articles from Materials Today
Recent advances in iron-based superconductors toward applications S’ouvre dans une nouvelle fenêtre Hosono H., Yamamoto A., Hiramatsu H., Ma Y.
Materials Today
Nucleic acid-templated functional nanocomposites for biomedical applications S’ouvre dans une nouvelle fenêtre Zhou L., Ren J., Qu X. Materials Today
Liu Y., Zhang Y., Yang Z., Feng J., Xu Z., Li Q., Hu M., Ye H., Zhang X., Liu M., Zhao K., Liu S.
Materials Today
Discovering superior basal plane active two-dimensional catalysts for hydrogen evolution S’ouvre dans une nouvelle fenêtre Zhang J., Wu J., Zou X., Hackenberg K., Zhou W., Chen W., Yuan J., Keyshar K., Gupta G., Mohite A., Ajayan P.M., Lou J.
Materials Today
Articles from Materials Today Nano
Chen Z., Jin L., Hao W., Ren W., Cheng H.M.
Leveraging Biomaterials for Cancer Immunotherapy: Targeting Pattern Recognition Receptors S’ouvre dans une nouvelle fenêtre Song W., Das M., Xu Y., Si X., Zhang Y., Tang Z., Chen X.
Rare earths and transition metal ion doped inorganic luminescent nanocrystals: from fundamentals to biodetection S’ouvre dans une nouvelle fenêtre Huang P., Zheng W., Gong Z., You W., Wei J., Chen X.
Articles from Materials Today Energy
Ni-doped MnO 2 /CNT nanoarchitectures as a cathode material for ultra-long life magnesium/lithium hybrid ion batteries S’ouvre dans une nouvelle fenêtre Asif M., Rashad M., Ali Z., Qiu H., Li W., Pan L., Hou Y.
Fluorine atom-inducing graphene oxide in situ coating SnPO composites as anode for sodium ion batteries S’ouvre dans une nouvelle fenêtre Cheng N., Fan L., Liu Z., Chen S., Zhang E., Zhao J., Yang H., Yu X., Lu B.
Articles from Materials Today Chemistry
Ferric metal-organic framework for microwave absorption S’ouvre dans une nouvelle fenêtre
Green M., Liu Z., Xiang P., Tan X., Huang F., Liu L., Chen X. Materials Today Chemistry S’ouvre dans une nouvelle fenêtre
Articles from Applied Materials Today
Size and dimension dependent surface-enhanced Raman scattering properties of well-defined Ag nanocubes S’ouvre dans une nouvelle fenêtre Lin Y., Zhang Y., Yang W., Dong J., Fan, F., Zhao Y., Zhang H., Bodappa N., Tian X., Yang Z., Stucky G, Tian Z, Li J.
Nitrogen and boron dual-doped graphene quantum dots for near-infrared second window imaging and photothermal therapy S’ouvre dans une nouvelle fenêtre Wang H., Mu Q., Wang K., Revia R., Yen C., Gu X., Tian B., Liu J., Zhang M. Applied Materials Today S’ouvre dans une nouvelle fenêtre
Zhang X., Nie J., Yang X., Liu Z., Guo W., Qiu J., Wang S., Yu X., Guan Y., Liu H., Li L. Applied Materials Today S’ouvre dans une nouvelle fenêtre
Artificial control of in-plane anisotropic photoelectricity in monolayer MoS2 S’ouvre dans une nouvelle fenêtre Tong L., Duan X., Song L., Liu T., Ye L., Huang X., Wang P., Sun Y., He X., Zhang L., Xu K., Hu W., Xu J., Zang J., Cheng G. Applied Materials Today S’ouvre dans une nouvelle fenêtre
Selected publications from the extended Materials Today family journals
Intermediate-mediated strategy to horn-like hollow mesoporous ultrathin g-C3N4 tube with spatial anisotropic charge separation for superior photocatalytic H2 evolution S’ouvre dans une nouvelle fenêtre Liu C., Huang H., Ye L., Yu S., Tian N., Du X., Zhang T., Zhang Y.
Active targeting theranostic iron oxide nanoparticles for MRI and magnetic resonance-guided focused ultrasound ablation of lung cancer S’ouvre dans une nouvelle fenêtre Wang Z.L., Qiao R., Tang N., Lu Z., Wang H., Zhang Z., Xue X., Huang Z., Zhang S., Zhang G., Li Y.
Hyper-stretchable self-powered sensors based on electrohydrodynamically printed, self-similar piezoelectric nano/microfibers S’ouvre dans une nouvelle fenêtre Huang Y., Ding Y., Bian J., Su Y., Zhou J., Duan Y., Yin Z.
Recent advances in functional nanomaterials for light–triggered cancer therapy S’ouvre dans une nouvelle fenêtre Gai S., Yang G., Yang P., He F., Lin J., Jin D., Xing B.
Controllable nanoscale engineering of vertically aligned MoS2 ultrathin nanosheets by nitrogen doping of 3D graphene hydrogel for improved electrocatalytic hydrogen evolution S’ouvre dans une nouvelle fenêtre Zhao L., Hong C., Lin L., Wu H., Su Y., Zhang X., Liu A.
Indacenodithiophene-based wide bandgap copolymers for high performance single-junction and tandem polymer solar cells S’ouvre dans une nouvelle fenêtre Ma Y., Chen S.-C., Wang Z., Ma W., Wang J., Yin Z., Tang C., Cai D., Zheng Q.
Hierarchical CdS/m-TiO 2 /G ternary photocatalyst for highly active visible light-induced hydrogen production from water splitting with high stability S’ouvre dans une nouvelle fenêtre Lu Y., Cheng X., Tian G., Zhao H., He L., Hu J., Wu S.-M., Dong Y., Chang G.-G., Lenaerts S., Siffert S., Van Tendeloo G., Li Z.-F., Xu L.-L., Yang X.-Y., Su B.-L.
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