Reversible formation of hybrid nanostructuresvia an organic linkage
Literature Information
Liangfei Tian, Chunsheng Shi, Jin Zhu
A reversible formation of hybrid nanostructures has been successfully achieved via an organic linker containing a cleavable disulfide bond, which provides a general route to the preparation of controllable composite architectures using particles of distinct compositions.
Recommended Journals
Related Literature
IF 6.222
Palladium-catalyzed silaborative carbocyclizations of 1,6-diynesIF 6.222
Life cycle assessment of plasma-assisted ethylene production from rich-in-methane gas streamsIF 6.367
Back coverIF 6.222
Non-aqueous neptunium and plutonium redox behaviour in THF – access to a rare Np(iii) synthetic precursorIF 6.222
Development of wound healing scaffolds with precisely-triggered sequential release of therapeutic nanoparticlesIF 6.843
Stabilizing synthetic DNA for long-term data storage with earth alkaline saltsIF 6.222
Synthesis and hydrogen evolving catalysis of a panchromatic photochemical molecular deviceIF 6.367
Co9S8 integrated into nitrogen/sulfur dual-doped carbon nanofibers as an efficient oxygen bifunctional electrocatalyst for Zn–air batteriesIF 6.367
Carbon-based photocatalysts for enhanced photocatalytic reduction of CO2 to solar fuelsIF 6.367
Source Journal
Chemical Communications
ChemComm publishes urgent research which is of outstanding significance and interest to experts in the field, while also appealing to the journal’s broad chemistry readership. Our communication format is ideally suited to short, urgent studies that are of such importance that they require accelerated publication. Our scope covers all topics in chemistry, and research at the interface of chemistry and other disciplines (such as materials science, nanoscience, physics, engineering and biology) where there is a significant novelty in the chemistry aspects. Major topic areas covered include: Analytical Chemistry Catalysis Chemical Biology and medicinal chemistry Computational Chemistry and Machine Learning Energy and sustainable chemistry Environmental Chemistry Green Chemistry Inorganic Chemistry Materials Chemistry Nanoscience Organic Chemistry Physical Chemistry Polymer Chemistry Supramolecular Chemistry
Recommended Compounds
![57423-71-9 - (1R,2R,4R,6S,11R,12S,15R,18S,19R,20S,21S,23R,26R)-15-Hydroxy-11,18,21-trimethyl-5,17,24,28,29-pentaoxanonacyclo[17.9.1.1~1,20~.0~2,12~.0~4,6~.0~6,11~.0~15,19~.0~18,23~.0~21,26~]triacont-8-ene-10,16,25
,30-tetrone](/structs/574/57423-71-9-78dc.webp "57423-71-9 - (1R,2R,4R,6S,11R,12S,15R,18S,19R,20S,21S,23R,26R)-15-Hydroxy-11,18,21-trimethyl-5,17,24,28,29-pentaoxanonacyclo[17.9.1.1~1,20~.0~2,12~.0~4,6~.0~6,11~.0~15,19~.0~18,23~.0~21,26~]triacont-8-ene-10,16,25
,30-tetrone")
Recommended Suppliers
Jiangsu Changrong Chemical Co., Ltd.Lai County Laiyu Chemical Industry Co., Ltd.Shanghai Hutu Pump Manufacturing Co., Ltd.Gongyi Changhong Magnesium Industry Technology Co., Ltd.
EcoSynthetix Inc.Dongguan Koryada Chemical Technology Co., Ltd.Nanjing Kunchen Chemical Industry Co., Ltd.
Interstuhl Büromöbel GmbH & Co. KGJiangxi Wanxiangcu Biotechnology Co., Ltd.Jinhua Zhongneng Automatic Equipment Co., Ltd.