Optical modeling of finite element surface
... Surface interferogram files are CODEV native and are two-dimensional data sets that are assigned as deviations to an optical surface. The data is assumed normal to the optical surface requiring finite element displacements to be converted into surface normal displacements. Interferogram file data ma ...
... Surface interferogram files are CODEV native and are two-dimensional data sets that are assigned as deviations to an optical surface. The data is assumed normal to the optical surface requiring finite element displacements to be converted into surface normal displacements. Interferogram file data ma ...
Homo-coupling of terminal alkynes on a noble metal surface
... are rendered with the same colour code. The characteristic outline, the smooth connection via the thinner waist, as well as the slightly brighter benzene rings compared to the waist, all agree well with the simulation. We furthermore analysed the small regular dimer patch depicted in Fig. 3c. With ...
... are rendered with the same colour code. The characteristic outline, the smooth connection via the thinner waist, as well as the slightly brighter benzene rings compared to the waist, all agree well with the simulation. We furthermore analysed the small regular dimer patch depicted in Fig. 3c. With ...
Photocatalysis on TiOn Surfaces: Principles, Mechanisms, and
... exchange require orbital overlap between the interacting centers. When both processes are thermodynamically allowed, electron transfer predominates since the electron exchange process requires simultaneous overlap of two orbital pairs, whereas only one such overlap is necessary for electron t r a n ...
... exchange require orbital overlap between the interacting centers. When both processes are thermodynamically allowed, electron transfer predominates since the electron exchange process requires simultaneous overlap of two orbital pairs, whereas only one such overlap is necessary for electron t r a n ...
Ultrahydrophobicity
Superhydrophobic surfaces are highly hydrophobic, i.e., extremely difficult to wet. The contact angles of a water droplet exceeds 150° and the roll-off angle/contact angle hysteresis is less than 10°. This is also referred to as the Lotus effect, after the superhydrophobic leaves of the lotus plant. Droplet impacting on these kind of surfaces can fully rebound like an elastic ball, or pancake.