【摘 要】
:
For the realization of tailored colloidal interfaces it is of paramount importance-in addition to Thermodynamic parameters like ΔG,ΔH,ΔS – to gain an in
【机 构】
:
Institute of Particle Technology,Friedrich-Alexander-Universit?t Erlangen-Nürnberg(FAU),Erlangen,Ger
【出 处】
:
The 6th International Conference on Nanoscience and Technolo
论文部分内容阅读
For the realization of tailored colloidal interfaces it is of paramount importance-in addition to Thermodynamic parameters like ΔG,ΔH,ΔS – to gain an in-depth understanding the kinetics of ligand binding.[1] However,assumption-free,direct measurements about the kinetics of ligand binding to colloidal particles are hardly found in the literature.[2] Therefore,a toolbox to resolve the kinetics of ligand adsorption to colloidal surfaces was established by means of catechol(Ethyl 3,4-dihydroxybenzoate,CAT)binding to ZnO quantum dots.CAT was chosen as it is an excellent candidate anchor group in biomedical applications and dye sensitized solar cells.
其他文献
Atomic force microscopy(AFM)has become a standard for high-resolution structural analysis of samples ranging from single molecules to complex macromolecular
In this report,the graphene layers synthesized on Copper(Cu)foil by chemical vapor deposition are investigated with a commercial atomic force microscopy(AFM
The Scanning probe microscopes(SPMs)are widely used in nanoscience research and industry because of the ability of surface topography measurement with nanom
Polymer dielectrics are widely used both in academic research and industrial applications.The effect of trapped charges on dielectric relaxation of the poly
The localized surface plasmon resonances(LSPRs)provide an ideal platform to manipulate photons at nanoscale,like as tapered apertureless metal tip for tip-e
Non-destructive and rapid evaluation of graphene directly on the growth substrates(Cu foils)by dark field(DF)optical microscopy is demonstrated [1].Compared
The dynamic behavior of water molecules at an interface with a solid or confined between two solid surfaces at ambient conditions is of fundamental importan
The on-surface synthesis of organic nanostructures known as bottom-up approach paves a new way for surface structuring,which plays a vital role in catalysis
Chirality is a common phenomenon in nature and exists at nearly all scale ranges,from single organic molecules to living organisms and the universe.Since Pa
Graphene nanoribbons(GNRs)are promising candidates to overcome the low on/off-behaviour of graphene,a zero band gap material,while still preserving the high