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已有 1102 次阅读 2021-8-30 17:09 |个人分类:发表作品|系统分类:论文交流

发表期刊:Angewandte Chemie

论文题目:Frontispiece: In-situ Nano-Crystallization and Solvation Modulation to Promote Highly Stable Anode Involving Alloy/De-alloy for Potassium Ion Batteries

论文作者:Lu Wang, Bo Zhang, Bin Wang, Suyuan Zeng, Prof. Mingwen Zhao, Xiuping Sun, Yanjun Zhai, Prof. Liqiang Xu

发表日期:July 5, 2021

论文摘要:Batteries In their Research Article on page 15381, Liqiang Xu et al. report the in-situ nano-crystallization of highly stable anodes for potassium ion batteries.


发表期刊:Advanced Science

论文题目:Optogenetic Control of Non-Apoptotic Cell Death: Optogenetic Control of Non-Apoptotic Cell Death

论文作者:Lian He, Zixian Huang, Kai Huang, Rui Chen, Nhung T. Nguyen, Rui Wang, Xiaoli Cai, Zhiquan Huang, Stefan Siwko, Joel R. Walker, Gang Han, Yubin Zhou, Ji Jing

发表日期:July 7, 2021

论文摘要:In article number 2100424, Gang Han, Yubin Zhou, Ji Jing, and co-workers introduce a set of optogenetic tools, designated LiPOPs, that enable photoswitchable control over key molecular steps involved in necroptosis or pyroptosis, including cell membrane perforation, extracellular ions influx, and cell suicide. LiPOPs are coupled with either upconversion nanoparticles (UCNPs) with NIR-to-blue emission (left corner) or NanoLuc-catalyzed bioluminescence-based optogenetic stimulation (NanoLOGS; right corner) to achieve wireless nano-optogenetic or chemo-optogenetic manipulation of cell fate with high spatiotemporal precision in living animals. LiPOPs open new avenues to study the role of non-apoptotic cell death during microbial infection, inflammatory response and cancer immunotherapy.


发表期刊:Advanced Functional Materials

论文题目:Vapor Transport Deposition: Vapor Transport Deposition of Highly Efficient Sb2(S,Se)3 Solar Cells via Controllable Orientation Growth

论文作者:Yanlin Pan, Xiaobo Hu, Yixin Guo, Xingyu Pan, Fei Zhao, Guoen Weng, Jiahua Tao, Chunhu Zhao, Jinchun Jiang, Shaoqiang Chen, Pingxiong Yang, Junhao Chu

发表日期:July 9, 2021

论文摘要:In article number 2101476, Jiahua Tao, Chunhu Zhao, Pingxiong Yang, and co-workers develop cost-efficient and high-throughput vapor transport deposition (VTD) to precisely control the growth of high quality Sb2(S,Se)3 absorbers. A high power conversion efficiency of 8.17% is achieved, which is the highest ever reported for Sb2(S,Se)3 solar cells fabricated via a VTD method. This work provides a prospective pathway for further improving the performance of Sb2(S,Se)3 solar cells.


发表期刊:Advanced Materials

论文题目:Biopolymeric Materials: Biopolymers Derived from Trees as Sustainable Multifunctional Materials: A Review

论文作者:Chao Liu, Pengcheng Luan, Qiang Li, Zheng Cheng, Pengyang Xiang, Detao Liu, Yi Hou, Yang Yang, Hongli Zhu

发表日期:July 15, 2021

论文摘要:In article number 2001654, Hongli Zhu and co-workers provide an overview of the recent studies on materials and structures derived from trees. The correlations of materials, structure, properties, and performance of components from different sections of trees, including trunks (stem and bark), leaves, flowers, seeds, and roots, are comprehensively reviewed. An introduction of the corresponding chemistries and preparation methods of different biopolymers from the trees is also given.


发表期刊:Advanced Functional Materials

论文题目:Synergistic Chemotherapy: Bioengineered Dual-Targeting Protein Nanocage for Stereoscopical Loading of Synergistic Hydrophilic/Hydrophobic Drugs to Enhance Anticancer Efficacy

论文作者:Zhuoran Wang, Shuai Zhang, Ruofei Zhang, Xuehui Chen, Guoming Sun, Meng Zhou, Qiubai Han, Baoli Zhang, Yue Zhao, Bing Jiang, Yili Yang, Xiyun Yan, Kelong Fan

发表日期:July 16, 2021

论文摘要:In article number 2102004, Xiyun Yan, Kelong Fan, and co-workers present an amphiphilic multi-drug loading protein nanocage (Am-PNCage) with a dual-tumor targeting (CD71 and Integrin) property, which exhibits a spatiotemporally programmed cascade drug release pattern and kills drug-resistant tumor cells synergistically. It represents a novel promising protein cage nanocarrier platform for co-loading synergistic hydrophilic and hydrophobic drug pairs and targeted combination chemotherapy.



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