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A 2D plate detector versus 3D Calvet detector designs,

A 2D plot of MALDI-IM-MS conformation space for a short oligonucleotide

A 2D plot of silver Auger parameters

A 2D projection of the calculated local field intensity distribution around a pair of 15 nm diameter silver nanoparticles excited with Xi 400 nm light polarized along the interpaiticle axis. The edge-to-edge particle separation is 2 nm and the free space incident light intensity Ej,x P taken to be unity. The local field intensity near the pair is shown in false color. The calculation was done using dipole-dipole approximation are the field enhancements at the position of the molecule for the excitation and emission wavelengths respectively, kn and kMR represent the radiative and non-radiative decay rates of the molecule in the absence of plasmon enhancement.

A 2D proteome map of L. major Friedlin. Whole cells were extracted with a lysis buffer containiug urea, thiourea, and CHAPS. Samples were run using a variety of narrow-range IPG strips .

A 2D reaction representation

A 2D representation of the structure of a soda lime sDicate glass. A fourth bridging oxygen would be located directly below or above the silica

A 2D representation of the tRNA clover-leaf structiue, and residues 1051-1108 from the large subunit of E. coli wild type ribosomal RNA. Reprinted with permission .

A 2D schematic depicting the stressing condition underneath the indenter.

A 2D SLF pulse sequence . The -spin-lock suppresses I-I dipolar couplings and the -spin chemical shift while the 5-spin-lock suppresses the 5-spin chemical shift. See the text for more details on the pulse sequence.

A 2D SLF pulse sequence . This experiment under MAS can be used for separating I-S dipolar sideband patterns by isotropic chemical shifts the re-pulse and the start of the acquisition need to be synchronized with rotational echoes. Other aspects of this pulse sequence are similar to the SLF sequence in

A 2D slice through a H 3D MR image of the fixed-bed of catalyst particles. The catalyst particles appear as black fluid within the inter-particle space is indicated by lighter shades. Chemical conversion within ten selected volumes within each of the three transverse sections indicated is investigated in Figures 5.5.9-5.5.11. The direction of superficial flow .

A 2D spatial X-band image of four specks of solid DPPH. Sixty EPR spectra were obtained with maximum field gradients 5 5z 10 mT cm- and 5Bz 5y 6 mT cm-. The spectra constitute a fuii set of projections over 180 . Reproduced with permission from Eaton GR and Eaton SS Introduction to EPR imaging using magnetic-field gradients. Concepts in Magnetic Resonance 7

A 2D Tafel slope vs. Tafel ordinate at the origin diagram for samples from the Sant Joan del Mercat church. From SQWVs at specimen-modified PIGEs immersed in 0.50 M phosphate buffer, pH 7.4 initiated at 0.65 V in the negative direction. Potential step increment 4 mV square-wave amplitude 20 mV frequency 5 Hz. Solid figures correspond to blanks of azuiite, malachite, smalt, and smalt heated at 600 C. Empty figures correspond to samples provided from lightly altered regions of the vault

A 2D Toss reverse-Toss spectrum of 60CB in the crystal phase acquired at

A 2D x-y-slice cut atz 6D of the PVPjet forp SObar at t 10. The upper halve shows the velocity Held and the corresponding shear rates. The lower halve depicts the resulting viscosity distribution in the liquid

A 2D-HETCOR experiment, 300 MHz H spectrum of 1 M sucrose in D2O. In both spectra the labels G and F refer to the glucose ring and the fructose ring, respectively. Structure of sucrose was given in

A 2D-HETCOR experiment, The 2D-HETCOR spectrum of sucrose. Carbon F2 has no protons directly bonded to it because there is no spot of intensity in the HETCOR plot in line with the F2 chemical shift.

A 2D-heteronuclear relayed coherence transfer spectrum of 2-acetonaphthalene. The cross peaks marked with an asterisk are due to nonrelayed magnetization, as determined by a normal heteronuclear shift correlated experiment.

A 2D-INADEQUATE spectrum of sucrose. The coupled carbon atoms lie symmetrically on either side of a diagonal line. Pairs of coupled carbons appear as cross peaks on the same horizontal line, thus allowing them to be readily identified. Broad-band decoupled C-NMR spectrum.

A 2DCOS ROA moving window analysis. Backscattered ICP ROA shown as shaded contours. The moving window analysis of these data is presented bottom right and monitors the two distinct phases of spectral change occurring during helix unfolding

A 2F0bs-F0a 0 electron density map around a tryptophan residue in Aspergillus flavus urate oxidase contoured at 1.5a level calculated at .

A 2Fobs-Foa 0 electron density map of Aspergillus flavus urate oxidase contoured at the 1 a- level . The absolute value of the electron density is actually not useful in macromolecular crystallography what matters are the relative values. Electron density values are commonly given as multiples of the standard deviation ct, and where there are electrons, there are atoms. The protein atoms are shown in sticks and the red spheres represent ordered water molecules.

A 2MeV He 165 backscattered from Au on Si-substrate

A 2n bis-terpyridine complex fragment.



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