15 research outputs found
Developing a Novel Approach for Stone Porosity Computing Using Modified Local Binary Patterns and Single Scale Retinex
Value of 99mTc-MDP SPECT/CT fusion imaging and CT in evaluating the extent of mandibular invasion by malignant tumor of oral cavity
Germination time, other plant traits and phylogeny in an alpine meadow on the eastern Qinghai-Tibet plateau
Nickel(II) α-diimine catalysts with carboxyl groups for ethylene oligomerization and polymerization
Synthesis, growth, optical and anisotropic mechanical behaviour of organic nonlinear optical imidazolium 2-chloro-4-nitrobenzoate single crystals
Surface characterization using atomic force microscopy (AFM) in liquid environments
Liquid imaging provides intrinsic advantages for AFM experiments, particularly for conducting in situ studies of chemical or biochemical reactions. Using liquid media has benefits for improving resolution, since the amount of force applied between the tip and sample can be reduced. Surface changes caused by immersion in different liquids can be investigated, such as for studying electrochemical reactions with different parameters of solvent polarity, pH or ion concentration. Aqueous buffers enable studies of biochemical reactions that simulate physiological conditions, with time-lapse capture of image frames at different intervals. Studies of surface changes throughout the course of self-assembly reactions have been monitored with AFM in liquid media. By injecting new molecules into the sample cell, AFM-based nanofabrication can be accomplished by nanografting protocols. Liquid environments expand the capabilities for scanning probe studies to provide insight for dynamic processes at the molecular-level. © Springer-Verlag Berlin Heidelberg 2013