当前课程知识点:Nuclear Magnetic Resonance Spectroscopy in Organic Chemistry > Chapter 10 Review > 10 Review > 3.2.1.1 N+1 rule and splitting patterns --- equivalent splitting
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返回《Nuclear Magnetic Resonance Spectroscopy in Organic Chemistry》慕课在线视频列表
-2.1 Properties of nuclei and the phenomenon of nuclear magnetic resonance
-2.2 Precession of nuclei and the detection of signals
-2.3 A glimpse at the spectrometer
-Homework
-3.1.1 Definition of chemical shift
-3.1.2.1 Influencing factors on chemical shifts --- inductive effect
-3.1.2.2 Influencing factors on chemical shifts --- anisotropic
-3.1.2.3 Influencing factors on chemical shifts --- resonance
-3.1.3 Chemical shifts of proton
-3.2.1.1 N+1 rule and splitting patterns --- equivalent splitting
-3.2.1.2 Splitting patterns --- nonequivalent splitting
-3.2.2.1 Magnitude of coupling constants and Karplus rule
-3.2.2.2 Magnitude of coupling constants and Karplus rule --- examples
-3.2.3.1 First order spin systems
-3.2.3.2 Second order AB systems
-3.3 Coupling from heteronuclei
-Homework
-Homework
-5. Multinuclear NMR other than 13C
-Homework
-6. Introduction to multi-dimensional NMR techniques
-7.1 Homonuclear two-dimensional NMR --- COSY
-7.2 Homonuclear two-dimensional NMR --- NOESY
-7.3 Case study --- COSY & NOESY
-8.1 Heteronuclear two-dimensional NMR --- HMQC HSQC
-8.2 Heteronuclear two-dimensional NMR --- HMBC
-Homework
-9.1 Experimental considerations --- sample preparation
-9.2 Experimental considerations --- parameter setting
-Homework