Titlebook: High Velocity Microparticles in Space; Influence Mechanisms Anatoly Belous,Vitali Saladukha,Siarhei Shvedau Book 2019 Springer Nature Switz

NADIR

幻想

Anatoly Belous,Vitali Saladukha,Siarhei Shvedauthe chamber. Therefore, a very promising alternative to SEM is based on the use of an atomic force microscope (AFM) to observe in situ surface 978-3-642-09870-3978-3-540-85039-7Series ISSN 1434-4904 Series E-ISSN 2197-7127

憤世嫉俗者

慌張

chieved using a combination of an atomic force microscope (AFM) and an objective-type TIRFM(AFM-TIRFM). Afterwards, we achieved a high-speed (fast-scan) atomic force microscopy image of the random movement of a single π-conjugated polymer chain in a solution at room temperature. On the basis of an a

Autobiography

Anatoly Belous,Vitali Saladukha,Siarhei Shvedaudy adhesion at the nanoscale. Precise analysis of adhesion forces and surface mechanical properties of model polymer surfaces can be achieved with such a nanometer probe. The purpose and scope of this chapter is to highlight the experimental methods that enable one to dissociate the different contri

OVER

Anatoly Belous,Vitali Saladukha,Siarhei Shvedaudy adhesion at the nanoscale. Precise analysis of adhesion forces and surface mechanical properties of model polymer surfaces can be achieved with such a nanometer probe. The purpose and scope of this chapter is to highlight the experimental methods that enable one to dissociate the different contri

美麗的寫

Indent

Anatoly Belous,Vitali Saladukha,Siarhei Shvedaudulated in health and disease. As adhesion molecules, living cells and even bacteria can be studied by single-molecule AFM force spectroscopy, this method is set to become a powerful tool that can not only be used in biophysics, but in cell biology as well as in immunology and cancer research.

modish

ensemble