【摘 要】
:
Controllable synthesis of macroscopically uniform,high quality monolayer MoS2 is crucial for harnessing its great potentials in optoelectronics,electrocatal
【机 构】
:
Department of Materials Science and Engineering,College of Engineering,Peking University,100871,Beij
【出 处】
:
The 6th International Conference on Nanoscience and Technolo
论文部分内容阅读
Controllable synthesis of macroscopically uniform,high quality monolayer MoS2 is crucial for harnessing its great potentials in optoelectronics,electrocatalysis [1] and energy storage.To date,triangular MoS2 single crystals or their polycrystalline aggregates have been synthesized on insulating substrates of SiO2/Si,mica and sapphire,etc.,via portable chemical vapor deposition methods.Herein,we report a controllable synthesis of dendritic,strictly monolayer MoS2 flakes possessing tunable degrees of fractal on a specific insulator SrTiO3.
其他文献
Carbon nanomaterials possess several desirable properties that cannot be achieved by other materials,and therefore hold promising potential in a wide variet
Carbon nanotube(CNT)and graphene-based porous materials usually have low strength and stability,which severely limit their application fields.Here,we presen
Surfactantsor polymersareusually usedfor the liquid processing of single-wall carbon nanotubes(SWCNTs)for theirstructure separation.However,theyaredifficult
Graphene oxide(GO)sheets with controlled lateral dimensions are of great importance for their practical applications.Here we report a facile method based on
In this study a hydrophobic and thermostable amino-modified graphene oxide(MGO)was prepared and characterized.A small molecule,p-toluidine,was covalently in
Flexible supercapacitors with high performance,low-cost and light-weight are playing an increasing important role for energy storage systems.Here we report
Controlled synthesis,Catalyst film,CNCs Abstract: Carbon nanocoils(CNCs)with selective coil diameters and structures have been synthesized by chemical vapor
Three dimensional hollow carbon spheres/graphene(HCS/GF)hybrid nanostructures were prepared from polypropylene(PP)/montmorillonite(MMT)/Fe3O4 composite by a
Manganese oxide is one of the best candidates for pseudocapacitor electrodes so far because of its high theoretical specific capacitance(1380 F·g-1)and env
Purpose: In bioapplications,coating nanomaterials with polyethylene glycol(PEG)chains,is the most mature and adopted fashion to achieve sufficient stability