Draw Tree Coupling Diagrams Nmr
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UNEQUAL COUPLING TREE DIAGRAMS PowerPoint Presentation
UNEQUAL COUPLING TREE DIAGRAMS
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UNEQUAL COUPLING TREE DIAGRAMS
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Presentation Transcript
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UNEQUAL COUPLING TREE DIAGRAMS SPLITTING DIAGRAMS aka "TREE" DIAGRAMS
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WHERE DOES THE N+1 RULE WORK ? The n+1 rule works only for protons in aliphatic chains and rings, and then under special conditions. There are two requirements for the n+1 rule to work: 1) All 3J values must be the same all along the chain. 2) There must be free rotation or inversion (rings) to make all of the hydrogens on a single carbon be nearly equivalent.
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H H H C C C H H H 3Ja = 3Jb THE TYPICAL SITUATION WHERE THE n+1 RULE APPLIES Hydrogens can interchange their positions by rotations about the C-C bonds. This makes all the hydrogens on each of the carbon atoms equivalent. All the couplings along the chain have the same J value.
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WHAT HAPPENS WHEN THE J VALUES ARE NOT EQUAL ? H H H 3Ja=3Jb C C C H H H 3Ja3Jb In this situation each coupling must be considered independently of the other. A "splitting tree" is constructed
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H H H C C C H H H 7 Hz 3 Hz USE THESE VALUES
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CONSTRUCTING A TREE DIAGRAM SPLITTING FROM HYDROGENS TO THE LEFT H H H -CH2-CH2-CH2- LEVEL ONE C C C The largest J value is usually used first. H H H Two neighbors gives a triplet. 3Ja = 7 The next splittings will be added to eachleg of the first splitting. Each level of the splitting uses the n+1 rule.
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H H H C C C H H H CONSTRUCTING A TREE DIAGRAM ADD SPLITTING FROM HYDROGENS TO THE RIGHT H H H -CH2-CH2-CH2- C C C H H H 3Ja = 7 3Jb = 3 FIRST LEVEL SECOND LEVEL LEVEL TWO triplet of triplets The smaller splitting is used second. EACH LEG OF LEVEL ONE IS SPLIT It is also a triplet.
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WHEN BOTH 3J VALUES ARE THE SAME The n+1 rule is followed ….. LEVEL ONE -CH2-CH2-CH2- Splitting from hydrogens on the left INTENSITIES n+1 = (4 + 1) = 5 1:2:1 1:2:1 LEVEL TWO 1:2:1 Splitting from hydrogens on the right 1:2:1 + 1:4:6:4:1 Splittings overlap ….. because of overlapping legs. You get the quintet predicted by the n+1 rule. WHEN THE n+1 RULE APPLIES WE CAN JUMP TO THE FINAL RESULT - NO TREE NEEDED
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2-PHENYLPROPANAL A case where there are unequal J values.
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J = 7 Hz J = 2 Hz Spectrum of 2-Phenylpropanal a b d TMS c a c d b
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7 Hz 2 Hz Rather than the expected quintet ….. the methine hydrogen is split by two different 3J values. quartet by -CH3 3J1 = 7 Hz 3J2 = 2 Hz doublet by -CHO ANALYSIS OF METHINE HYDROGEN'S SPLITTING quartet of doublets
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PURE ETHANOL
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ETHANOL 400 MHz Old sample Rapid exchange catalyzed by impurities hydrogen on OH is decoupled HO-CH2-CH3 triplet broad singlet quartet
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expansion expansion doublet of quartets triplet ETHANOL Ultrapure sample (new) Slow or no exchange 400 MHz triplet
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J = 7 J = 5 J = 7 J = 5 quartet of doublets triplet triplet
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VINYL ACETATE ALKENE HYDROGENS
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COUPLING CONSTANTS PROTONS ON C=C DOUBLE BONDS • 3J-cis = 8-10 Hz • 3J-trans = 16-18 Hz • protons on the same carbon 2J-geminal = 0-2 Hz For protons on saturated aliphatic chains 3J ~ 8 Hz
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NMR Spectrum of Vinyl Acetate 60 MHz
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O C H C 3 HB O C C HA HC Analysis of Vinyl Acetate 3J-trans > 3J-cis > 2J-gem HC HB HA 3JAC 3JBC 3JBC cis trans trans 3JAC 2JAB 2JAB cis gem gem
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2,4-DINITROANISOLE BENZENE HYDROGENS
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2,4-DINITROANISOLE 400 MHz 9.0 8.0 7.0
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2,4-DINITROANISOLE 8.72 ppm 8.43 ppm 7.25 ppm
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