Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download 13C NMR - Creighton Chemistry Webserver
Document related concepts
Transcript
13 < 13 C has 1.1 % natural abundance < 13 C NMR 13 C NMR is not very sensitive! C - 13C spin-spin splitting is never observed almost no molecules have $ 2 13C in them: for example, the probability of hexane having two adjacent 13C is 0.011 x 0.011 x 0.29 = 3.5 x 10 -6 < 13 C NMR is a carbon counter tells you the number of chemically nonequivalent carbons carbons appear in a < 13 * 0 - 200 ppm region C NMR spectra normally are not integrated peak intensities can be used to guess the “type” of carbon: usually, CH3 > CH2 > CH > C < DEPT 13 C NMR spectrum tells you the number of chemically nonequivalent CH 3 , CH2 , and CH carbons C do not appear–they must be identifed by comparison with the normal 13C NMR spectrum ways to present a DEPT 13C NMR spectrum: Q (13C NMR spectrum) + (DEPT-90) + (DEPT-135) (all carbons) + (only CH carbons) + (CH and CH3 carbons up, CH2 carbons down) this is the textbook’s method Q (13C NMR spectrum) + (CH3 subspectrum) + (CH2 subspectrum) + (CH subspectrum) + (all protonated carbons subspectrum) Q 13 C NMR spectrum with CH3 , CH2 , CH , and C resonances labeled 13 C NMR methanol 13 C NMR ethanol 13 C NMR ethyl acetate BASIC 13C NMR CHEMICAL SHIFTS C Type Approximate *, ppm Alkanes Methyl Methylene Methine Quaternary 0 - 30 15 - 55 25 - 55 30 - 40 Alkenes C= C 80 - 145 Alkynes C /C 70 - 90 Arenes Benzene 110 - 170 128.7 Alcohols and Ethers C–O 50 - 90 Amines C–N 40 - 60 Halogens C–F C–Cl C–Br C–I 70 - 80 25 - 50 10 - 40 -20 - 10 Car bonyls R 2C= O RXC= O (X = O or N) 190 - 220 150 - 180 13 C NMR of a tribromobenzene, C6H3Br3 What’s the structural formula? 13 C NMR of 1,3,5-tribromobenzene 13 C NMR spectrum of a chloropentane Use of DEPT 13C NMR to identify chloropentane structural isomers A C5H11Cl Use of DEPT 13C NMR to identify chloropentane structural isomers CH2 CH2 CH2 CH3 CH2 A C5H11Cl Use of DEPT 13C NMR to identify chloropentane structural isomers CH2 CH CH3 CH2 B C5H11Cl CH3 Use of DEPT 13C NMR to identify chloropentane structural isomers CH2 CH2 CH3 CH3 C C5H11Cl CH Use of DEPT 13C NMR to identify chloropentane structural isomers CH3 CH2 D C5H11Cl CH3 C Use of DEPT 13C NMR to identify chloropentane structural isomers CH3 E C5H11Cl CH2 C
