Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About
0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | a | b | c | d | e | f | g | h | i | j | k | l | m | n | o | p | q | r | s | t | u | v | w | x | y | z

   |<      <<      >>     > |    


Ultramicrodisk electrode coordinate system

Ultramicrodisk elecUxxle coordinate system

Ultramicroscoplc observation of the motion of a particle A, moving in the field between the electrodes and E. The incident light is normal to the plane of the sketch. The cell may be flat or cylindrical.

Ultramicrotomed TEM micrograph through a CSA pretreated Alclad 2024-T3

ULTRAN - MaxiFlex from Schleicher Schuell.

Ultraoentrifugal patterns of the carp tropomyosin extracted at i 1 soluble at low ionic strength before .

UltraPac C-Scan transducer

Ultrapac ultrasonic C-scan equipment and a t fpical C-scan image

Ultrapure copper sheets that serve as the cathodes are lowered between slabs of impure copper that serve as the anodes into a tank containing an aqueous solution of copper sulfate . It takes about 4 weeks for the anodes to dissolve and for the pure copper to be deposited on the cathodes.

Ultrapure silicon is produced by zone refining as shown in the schematic at right.

Ultrapure water applications during the manufacture of a VLSI wafer. Source Matsuura, Copyright 1994 from Synthetic Membranes and Membrane Separation Processes by T Matsuura. Reproduced by permission of Routiedge Tayior Francis Group, LLC.

Ultraqucnchcd PPVL thin film following annealing at 0 C for 2 days and cold shadow ing.

Ultrasensitive assays for horseradish peroxidase and alkaline phosphatase labels. A, Chemiluminescent assay for horseradish peroxidase label using luminol. B, Chemiluminescent assay for an alkaline phosphatase label using AMPPD.

Ultrasensitive bioassays of proteins and nucleic acids based on the amplification features of carbon-nanotube carriers and modified electrodes

Ultrashort Cr-Cr quintuple bonds

Ultrashort optical pulses can be shaped by adjusting the phase and amplitude of each spectral component . In the device, the input pulse is incident on a grating that disperses the different colors in different directions, as shown in the figure. The colors are collimated and focused by a lens or mirror. A second similar arrangement in reverse reconstitutes the pulse by redirecting the colors to another grating. At the mutual focal plane of the two lenses, the spectrum of the input pulse is completely resolved so that each spatial location corresponds to a single frequency . By inserting at this plane a material that causes variations in the phase of each resolved frequency, one can construct a pulse of arbitrary shape, constrained only by the spatial resolution of the arrangement.

UltraSIM 3D reconstruction of A-scan data

Ultrasomc waveforms of MBBA at three different temperatures

Ultrasonic absorption

Ultrasonic absorption as a function of water mass fraction along the line AB

Ultrasonic absorption curve for a single relaxation process.

Ultrasonic absorption data for an intramolecular spin-equilibrium relaxation.

Ultrasonic absorption of antamanide in methanol and of antamanide with varying sodium concentrations

Ultrasonic absorption of solutions of BMV, BMV protein capsids and subunit-dimers. See text and reference .

Ultrasonic absorption per wave length a function of frcquenq.- for aqueous solution of Ci. TAB added by C TAB. Concentration of CmTAB added are open circles 1.86 10 M Closed circles



   |<      <<      >>     > |    

SEARCH



© 2024 chempedia.info