MDPI Awards | Metals 2019 Highly Cited Paper Award获奖团队公布

为了鼓励和宣传高质量的学术研究，Metals举办了2019 Highly Cited Paper Award，该奖项旨在奖励2017年和2018年发表在Metals期刊上，且在Web of Science中统计为引用次数最多 (2019年) 的文章。在此我们非常荣幸地宣布Metals 2019 Highly Cited Paper Award的评选结果，并代表编辑委员会和编辑部向以下三个获奖团队的出色工作表示祝贺。

一等奖

600 CHF

文章标题

Corrosion-Resistant High-Entropy Alloys: A Review

Citations in 2019: 42

 Data comes from WoS

Total citations: 143 

 Data cutoff on 4 August 2020

文章作者

Dr. Yunzhu Shi

Dr. Bin Yang

Prof. Peter K Liaw

获奖感言

The paper “Corrosion-Resistant High-Entropy Alloys: A Review” summarizes the investigation of the corrosion characteristics of high-entropy alloys (HEAs) during the last decade. The corrosion resistance of HEAs in various aqueous environments and the corrosion behavior of HEAs coatings are presented. Furthermore, possible directions for future work regarding the corrosion study of HEAs are suggested.

It was a very pleasant experience to publish the present work with the cooperation of Metals. Hopefully, more influential articles will be published in Metals in the future.

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二等奖

400 CHF

文章标题

The Prospects of Zinc as a Structural Material for Biodegradable Implants—A Review Paper

Citations in 2019: 22

 Data comes from WoS

Total citations: 65

 Data cutoff on 4 August 2020

文章作者

Dr. Galit Katarivas Levy

Prof. Jeremy Goldman

Prof. Eli Aghion

获奖感言

The past several years have seen rapid growth in the research and development of medical devices based on zinc, due to it possessing biological and biodegradability properties that are compatible with the human body. Zn is one of the most abundant essential elements in the human body, playing essential roles in human health. Additionally, the use of zinc overcomes many limitations inherent to iron and magnesium, both pure and alloyed. This paper provides an extensive literature review on the current research progress for zinc and the development of zinc-based alloys. We comprehensively summarized and compared pure zinc with the currently researched zinc alloys in aspects such as biocompatibility, corrosion behavior, and mechanical properties. We highlighted the important role of zinc in the human body, along with the side-effects of zinc deficiency and excess and broadly discussed the degradation model of zinc in the physiological environment as a result of the corrosion process.

We appreciate being able to work with the high-quality professional team at Metals, who rapidly moved us through the review and proof correction process.

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三等奖

300 CHF

文章标题

A Review of Metastable Beta Titanium Alloys

Citations in 2019: 18

 Data comes from WoS

Tatol citations: 60 

 Data cutoff on 4 August 2020

文章作者

Dr. R. Prakash Kolli

 Dr. Arun Devaraj

获奖感言

In this article, we provide a broad and extensive review of beta titanium alloys. Beta titanium alloys are an important class of alloys that have found use in demanding applications such as aircraft structures and engines as well as orthopedic and orthodontic implants. The advantages of these alloys include their high strength, good corrosion resistance, excellent biocompatibility, and ease of fabrication compared to other high-performance alloys. The ease of fabrication, which is due to their lower beta transus temperature, provides these alloys with an advantage compared to other Ti alloy classes. The authors would like to thank Metals for the excellent experience during the editorial and publication process.

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再次恭喜以上获奖者，同时，我们很高兴地宣布Metals 2020 Highly Cited Paper Award也正式开启，该奖项将表彰过去两年中被引用次数最多的论文。我们希望该奖项将鼓励学者们发表更多高质量论文在Metals期刊上。

Metals 2020 Highly Cited Paper Award

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*本文作者：Metals Editorial Office

*本文内容由MDPI中国办公室编辑编写。如需转载，请邮件联系：mdpicnmarketing@mdpi.com

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