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101.
102.
H. Hager 《Fresenius' Journal of Analytical Chemistry》1878,17(1):502-504
Ohne Zusammenfassung 相似文献
103.
H. Hager und J. M. Eder 《Fresenius' Journal of Analytical Chemistry》1880,19(1):371-373
Ohne Zusammenfassung 相似文献
104.
H. Hager 《Fresenius' Journal of Analytical Chemistry》1878,17(1):380-381
Ohne Zusammenfassung 相似文献
105.
Ohne Zusammenfassung 相似文献
106.
Röse H. Vogel R. Kayser's H. Hager und A. Schwarz 《Fresenius' Journal of Analytical Chemistry》1886,25(1):591-592
Ohne Zusammenfassung 相似文献
107.
The use of a new hybrid quadrupole/linear ion trap known as the Q TRAP offers unique benefits as a LC-MS-MS detector for both small and large molecule analyses. The instrument combines the capabilities of a triple quadrupole mass spectrometer and ion trap technology on a single platform. Product ion scans are conducted in a hybrid fashion with the fragmentation step accomplished via acceleration into the collision cell followed by trapping and mass analysis in the Q3 linear ion trap. This results in triple quadrupole fragmentation patterns with no inherent low molecular mass cutoff. In-trap fragmentation is also possible in order to provide triple MS (MS3) capabilities. There are also several scan modes that are not possible on conventional instruments that enable identification of analytes within complex biological matrixes for subsequent high sensitivity product ion scans. This report will describe the new hybrid instrument and the principles of operation, and also provide examples of the unique scan modes and capabilities of the Q TRAP for LC-MS-MS detection in metabolism identification. 相似文献
108.
The utility of recording Raman spectroscopy under liquid nitrogen, a technique we call Raman under nitrogen (RUN), is demonstrated for ferrocene, uranocene, and thorocene. Using RUN, low-temperature (liquid nitrogen cooled) Raman spectra for these compounds exhibit higher resolution than previous studies, and new vibrational features are reported. The first Raman spectra of crystalline uranocene at 77 K are reported using excitation from argon (5145 A) and krypton (6764 A) ion lasers. The spectra obtained showed bands corresponding to vibrational transitions at 212, 236, 259, 379, 753, 897, 1500, and 3042 cm(-1), assigned to ring-metal-ring stretching, ring-metal tilting, out-of-plane CCC bending, in-plane CCC bending, ring-breathing, C-H bending, CC stretching and CH stretching, respectively. The assigned vibrational bands are compared to those of uranocene in THF, (COT)2-, and thorocene. All vibrational frequencies of the ligands, except the 259 cm(-1) out-of-plane CCC bending mode, were found to increase upon coordination. A broad, polarizable band centered about approximately 460 cm(-1) was also observed. The 460 cm(-1) band is greatly enhanced relative to the vibrational Raman transitions with excitations from the krypton ion laser, which is indicative of an electronic resonance Raman process as has been shown previously. The electronic resonance Raman band is observed to split into three distinct bands at 450, 461, and 474 cm(-1) with 6764 A excitation. Relativistic density functional theory is used to provide theoretical interpretations of the measured spectra. 相似文献
109.
110.
R. Benedikt F. Ulzer Focke Finkener Th. Morawski Alfred H. Allen O. Schweissinger R. Marzahn Dieterich Hazura F. W. A. Woll Bruno Röse Ch. Dubois L. Padé R. Bensemann Audoynaud Levallois T. Leone A. Longi F. Benecke Joseph Herz P. Soltsien C. Schädler C. L. Reimer W. Will H. Hager 《Analytical and bioanalytical chemistry》1888,27(1):524-539