Advanced Powder Materials 2024年第四期文章速递
文摘
科学
2024-09-06 17:08
湖南
1. Revealing the solid-state reaction process among multiphase multicomponent ceramic during ablationZiming Ye, Yi Zeng, Xiang Xiong, Sen Gao, Chen Shen, Shiyan Chen, Tianxing Jiang, Ge Yang.
揭示多相多元陶瓷在烧蚀过程中的固相反应现象
2. Nanozymes regulated by nitrogen element: Mechanism, design, and applicationLonghua Ding, Longwei Wang, Jian Zhang, Aizhu Wang, Hong Liu, Xin Yu.综述:氮元素调控的纳米酶的机理、设计及应用
3.Investigating the failure mechanism of solid electrolyte interphase in silicon particles from an electrochemical-mechanical coupling perspectiveJunjie Ding, Xueyan Li, Lili Gong, Peng Tan.
中文导读(点击标题进入阅读):
4. Sepiolite: A new component suitable for 380 km/h high-speed rail brake padsJiaqi Wu, Zhuan Li, Guoyuan Wen, Zonglong Gao, Ye Li, Yang Li, Peng Xiao.海泡石:一种适用于380km/h高速列车用制动闸片材料的新组元
5. A powder-scale multiphysics framework for powder bed fusion of fiber-reinforced polymer compositesPengfei Tan, Meixin Zhou, Chao Tang, Kun Zhou. 6. Oxygen vacancy mediated bismuth-based photocatalystsJianqi Tian, Jianpeng Li, Yadan Guo, Zhongyi Liu, Bin Liu, Jun Li. 综述:氧空位调控的铋基光催化剂:合成、设计及应用
7. Bound-state electrons synergy over photochromic high-crystalline C3N5 nanosheets in enhancing charge separation for photocatalytic H2 productionYu Shen, Xin Du, Yuxing Shi, Loic Jiresse Nguetsa Kuate, Zhouze Chen, Cheng Zhu,Lei Tan, Feng Guo, Shijie Li, Weilong Shi.
中文导读(点击标题进入阅读):
高结晶C3N5纳米片:光致变色与束缚态电子协同增强光催化制氢活性
8. Enhancing proton exchange membrane water electrolysis by building electron/proton pathwaysLiyan Zhu, Hao Zhang, Aojie Zhang, Tian Tian, Yuhan Shen, Mingjuan Wu, Neng Li, Haolin Tang.构建电子/质子通路增强质子交换膜水电解
9. Recent developments in synthesis, properties, and applications of 2D Janus MoSSe and MoSexS(1-x) alloysSeetha Lakshmy , Brinti Mondal , Nandakumar Kalarikkal, Chandra Sekhar Rout, Brahmananda Chakraborty.中文导读(点击标题进入阅读):
二维Janus MoSSe和MoSexS(1-x)合金的制备、性质和应用进展
Advanced Powder Materials(先进粉体材料(英文))创刊于2022年1月,由中南大学与KeAi合作创办,粉末冶金国家重点实验室和粉末冶金国家工程研究中心承办的粉体材料领域的学术期刊。主编是黄伯云院士和Chain-Tsuan Liu院士。致力于发表国内外粉体材料领域及其交叉学科具有原创性和重要性的最新研究成果。
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