Agilent Technologies, Inc

FIGURE 3.3 Van Deemter plot of columns with different particle sizes. (Courtesy of Agilent Technologies, Inc.)... 

FIGURE 3.5 Calculated efficiency yields (fraction of efficiency with and without dispersion) for different column dimensions, always assuming sub-2-micron particles. Solid lines assumed 36-/.(L dispersion. Broken lines 8-/tl. dispersion. (Courtesy of Michael Woodman, Agilent Technologies, Inc.)... 

Agilent Technologies, Inc., Application Compendium, 2005, Publication 5989-2549EN, Time-of-Flight Solutions in Pharmaceutical Development The Power of Accurate Mass. 

Department of Life Science Chemical Andlisis Agilent Technologies Inc. 

Adapted with courtesy of Dr. D. Heiger of Agilent Technologies Inc. from Ref. [5],... 

FIGURE I 0 Effect of electric field perturbations due to differences in conductivity between the sample and the buffer electrolyte zone on the shape of the peaks, (a) conductivity distribution, (b) sample ions distribution, (c) electric field strength perturbations, and (d) effect on the peak shapes. Adapted with courtesy of Dr. D. Heiger of Agilent Technologies Inc. ... 

Figure 7.6 Semipreparative HPLC system using feed pump for sample introduction. Icons courtesy of Agilent Technologies Inc., Santa Clara, CA, USA.

Figure G1.5.7 Typical gas chromatogram for cold-pressed orange oil. Reproduced with permission from Agilent Technologies, Inc. (see Internet Resources).

GCO-DHS was conducted on an HP6890 GC (Agilent Technologies, Inc.) equipped with a Tekmar 3000 purge and trap concentrator/cryofocusing module... 

Figure 14. Microfluidic realization of capillary electrophoresis analysis on the electrokinetic platform. (Adapted from [123], ( Agilent Technologies, Inc. 2007. Reproduced with permission, courtesy of Agilent Technologies, Inc.) After the sample has been transported to the junction area (a) it is metered by the activated horizontal flow and injected into the separation channel (b). Therein, the sample components are electrophoreticaUy separated (c) and readout by their fluorescence signal (d). The complete microfluidic CE-chip is depicted in the center.

Figure 2.5 Agilent 8453E UV Visible Spectroscopy System ( ) Copyright 2006 Agilent Technologies, Inc. reproduced with permission).

Figure 3.22 Agilent 1200 Series Rapid Resolution LC system ( Copyright 2006, Agilent Technologies, Inc. Reproduced with permission).

The gradient run was set at 100% A from 0 to 8 min, then to 100% B until 14.5 min, where it held until minute 17. The system reequilibration was performed by changing to 100% A from minute 17 to 18 and remaining with 100% A until minute 20. All operations and data analysis were processed by the Chemstation software v.8.03 (Agilent Technologies, Inc., Santa Clara, CA). 

Lateef SS. Analysis of bisphenol A leaching from baby feeding bottles. Agilent Applications Solution. Bangalore Agilent Technologies, Inc. 2011. 

Figure 4.31 The Agilent 4100 ExoScan FTIR, used (a) to characterize minerals in the field and (b) to evaluate rubber tire condition in real time. ( 2013 Agilent Technologies, Inc., www.agilent.com/chem. Used with permission.)...

Richard, S. Tang, P.L. Identification and evaluation of coatings using hand-held FTIR, Publication number 5990-8075EN. Agilent Technologies, Inc., Santa Clara, CA, 2011. 

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