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已有 404 次阅读 2020-1-15 15:01 |个人分类:发表作品|系统分类:论文交流

发表期刊:Advanced Functional Materials

论文题目:Extracellular Delivery: Tumor Microenvironment‐Tailored Weakly Cell‐Interacted Extracellular Delivery Platform Enables Precise Antibody Release and Function

论文作者:Sidi Li, Luyang Chen, Kai Huang, Ning Chen, Qi Zhan, Kaikai Yi, Hongzhao Qi, Chaoyong Liu, Yanli Tan, Xin Hou, Yunfeng Lu, Jin Zhao, Xubo Yuan, Chunsheng Kang

发表日期: October 24, 2019

论文摘要:In article number 1903296, Jin Zhao, Xubo Yuan, Chunsheng Kang, and co‐workers report a weakly cell‐interacted, nanosized, environment‐responsive delivery platform (WINNER) for precise extracellular release of extracellularly functional protein drugs. The WINNER can protect the inner drugs from cellular uptake and undergo enzymatic degradation in the tumor microenvironment to uncage the therapeutic power of the therapeutic agents.


发表期刊:Advanced Electronic Materials

论文题目:Spintronics: Magnetoresistance and Spinterface of Organic Spin Valves Based on Diketopyrrolopyrrole Polymers

论文作者:Yuanhui Zheng, Yaqing Feng, Dong Gao, Naihang Zheng, Dong Li, Litong Jiang, Xiang Wang, Kuijuan Jin, Gui Yu

发表日期:  December 05,2019

论文摘要:In article number 1900318, Kuijuan Jin, Gui Yu, and co‐workers report the fabrication and study of diketopyrrolopyrrole‐based polymer organic spin‐valves. The spinterface of this polymer with Co and Ni80Fe20 electrodes shows distinct magnetoresistance (MR) values. The effect of the alkyl side chain lengths in the polymer backbones on the behavior of the spin valves is also investigated. In addition, MR ratios of 30% can be reached. These results indicate that this series of polymers has potential for use in future organic spintronics.


发表期刊:Advanced Electronic Materials

论文题目:Hybrid Field Emitters: Highly Stable Field Emission from a Tungsten Diselenide Monolayer on Zinc Oxide Nanowire by Geometrically Modulating Hot Electrons

论文作者:Yicong Chen, Liwei Liu, Keshuang Zheng, Juncong She, Shaozhi Deng, Ningsheng Xu, Jun Chen

发表日期: August 08,2019

论文摘要:In article number 1900128, Jun Chen and co‐workers present an in situ study on hybrid structure field emitters with WSe2 monolayers on ZnO nanowires array. By geometrically modulating the WSe2curvature, hotter field electrons can be induced, which helps obtain a low turn‐on field and high field emission stability.


发表期刊:Advanced Energy Materials

论文题目:Perovskite Solar Cells: Halogen Engineering for Operationally Stable Perovskite Solar Cells via Sequential Deposition

论文作者:Qi Li, Yao Zhao, Wenke Zhou, Zhengyuan Han, Rui Fu, Fang Lin, Dapeng Yu, Qing Zhao

发表日期: December 13, 2019

论文摘要:In article number 1902239 Qing Zhao and co‐workers devise a Br‐rich seeding growth method to fabricate high‐quality FAPbI3‐based perovskite films with high bromine content. Submicron‐sized crystalline perovskite seeds are embedded in PbI2 film during the first step in sequential deposition, just like farmers sow seeds in the ground during spring. The perovskite seeds act as a source of Br for the final film. In the Br‐rich seeding growth method, the perovskite seeds contain much more bromine (depicted as green balls with blue balls representing iodine), compared with a typical FAPbI3‐based perovskite composition.


发表期刊:Advanced Energy Materials

论文题目:Smart Windows: Smart Windows: Electro‐, Thermo‐, Mechano‐, Photochromics, and Beyond

论文作者:Yujie Ke, Jingwei Chen, Gaojian Lin, Shancheng Wang, Yang Zhou, Jie Yin, Pooi See Lee, Yi Long

发表日期: October 17, 2019

论文摘要:“What will be the next‐generation window?” is the question addressed in article number 1902066 by Jie Yin, Pooi See Lee, Yi Long, and co‐workers. The most recent progress in smart windows based on electro‐, thermo‐, mechano‐, and photo‐chromics is summarized. Developments in integrated devices toward multifunctionality are reviewed and a perspective on the future of smart windows is given.


发表期刊:Advanced Energy Materials

论文题目:Perovskite Solar Cells: Reverse‐Graded 2D Ruddlesden–Popper Perovskites for Efficient Air‐Stable Solar Cells 

论文作者:Yi Wei, Huailong Chu, Yuyang Tian, Baoquan Chen, Kaifeng Wu, Junhui Wang, Xichuan Yang, Bin Cai, Yongfei Zhang, Jijun Zhao

发表日期:June 5, 2019

论文摘要:In article number 1900612, Jijun Zhao and co‐workers report new 2D Ruddlesden‐Popper Perovskites (RPPs) for solar cells. The films exhibit reverse‐graded quantum‐well distribution, which facilitates internal charge transfer and photon collection. This structure enables vulnerable large‐n RPPs to be protected by more resistant small‐n RPPs. Thus, a high‐performance solar cell with 15.05% efficiency is achieved and the stability in humid conditions is significantly enhanced.​





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