Nuclear magnetic resonance spectroscopy peaks

Monomer (Section 6 21) The simplest stable molecule from which a particular polymer may be prepared Monosaccharide (Section 25 1) A carbohydrate that cannot be hydrolyzed further to yield a simpler carbohydrate Monosubstituted alkene (Section 5 6) An alkene of the type RCH=CH2 in which there is only one carbon directly bonded to the carbons of the double bond Multiplicity (Section 13 7) The number of peaks into which a signal IS split in nuclear magnetic resonance spectroscopy Signals are described as singlets doublets triplets and so on according to the number of peaks into which they are split... 

Nuclear Magnetic Resonance Spectroscopy. Bmker s database, designed for use with its spectrophotometers, contains 20,000 C-nmr and H-nmr, as weU as a combined nmr-ms database (66). Sadder Laboratories markets a PC-based system that can search its coUection of 30,000 C-nmr spectra by substmcture as weU as by peak assignments and by fiiU spectmm (64). Other databases include one by Varian and a CD-ROM system containing polymer spectra produced by Tsukuba University, Japan. CSEARCH, a system developed at the University of Vieima by Robien, searches a database of almost 16,000 C-nmr. Molecular Design Limited (MDL) has adapted the Robien database to be searched in the MACCS and ISIS graphical display and search environment (63). Projects are under way to link the MDL system with the Sadder Hbrary and its unique search capabiHties. 

Multiplicity (Section 13.7) The number of peaks into which a signal is split in nuclear magnetic resonance spectroscopy. Signals are described as singlets, doublets, triplets, and so on, according to the number of peaks into which they are split. 

The overall blending stability of SMA in the material bulk and the surface grafting stability on material surfaces were examined by leaching tests and evaluated respectively with proton nuclear magnetic resonance spectroscopy [ H-NMR] and quantitative ATR-FT-IR. Firstly, SMA-MSPEO and SPEO with equivalent amounts of PEG components were respectively blended into PEU matrix materials. The initial quantity of PEG was measured and recorded by integrating the PEG-specific I-NMR peak areas at S = 3.52 ppm (- O - CH2 - CH2 - 0 -). The integral values were normalized... 

Dear GJ, Plumb RS, Sweatman BC et al. (2000) Mass directed peak selection, an efficient method of drug metabolite identification using directly coupled liquid chromatography-mass spectrometry-nuclear magnetic resonance spectroscopy. J Chromatogr B Biomed Sci Appl 748 281-293... 

Carbohydrates in nature are optically active and polarimetry is widely used in establishing their structure. Measurement of the specific rotation gives information about the linkage type (a or (3 form) and is also used to follow mutarotation. Nuclear magnetic resonance spectroscopy (NMR) can be used to differentiate between the anomeric protons in the a- or /3-pyranose and furanose anomers and their proportions can be measured from the respective peak areas. 

Nuclear Magnetic Resonance Spectroscopy. The use of 11B NMR spectroscopy to examine the state of boron in borosilicate molecular sieves has been reported (21.22.24-26.43.441. Scholle and Veeman (43) reported that the boron resonance is characteristic of tetrahedral boron when the samples are hydrated. Dehydration of a borosilicate sample results in a shift to a trigonal environment, as evidenced by the lineshape and peak position. The trigonal boron remains in the framework, and the change between trigonal and tetrahedral environments is reversible. Boron NMR has also been used to show that boron from Pyrex liners can be incorporated in molecular sieve frameworks during synthesis of MFI and MOR structure types (21.44). 

The assignment of these isomers was confirmed by nuclear magnetic resonance spectroscopy on a Perkin-Elmer 60 Mc./sec. NMR spectrometer, after removal of -OH by exchange with deuterium oxide. The spectrum of the cw-alcohol showed a single broad peak, while that of the trans-alcohol showed two peaks they thus resembled the spectra of the corresponding hydrocarbons (8). 

Table 2.1. Chemical shift references for biological phosphorus compounds in solution nuclear magnetic resonance spectroscopy. Bold type indicates general peak shift ranges regular type indicates specific chemical shift assignments.

---