NOC:NMR Spectroscopy for Chemists and Biologists


Lecture 1 - Basic concepts


Lecture 2 - Resonance absorption


Lecture 3 - Bloch Equations


Lecture 4 - Relaxation


Lecture 5 - Introduction to Chemical Shift


Lecture 6 - Factors affecting Isotropic Chemical Shifts


Lecture 7 - Spin-Spin Coupling


Lecture 8 - Interpretation of multiplet structure using first order analysis


Lecture 9 - Analysis of NMR spectra of molecules


Lecture 10 - Quantum Mechanical Analysis - Part I


Lecture 11 - Quantum Mechanical Analysis - Part II


Lecture 12 - Dynamic effects in the NMR Spectra


Lecture 13 - Fourier Transform NMR


Lecture 14 - Theorems on Fourier Transform


Lecture 15 - Practical aspects of Fourier Transform NMR spectra


Lecture 16 - Data Processing in Fourier Transform NMR


Lecture 17 - Dynamic range in Fourier Transform NMR


Lecture 18 - Spin Echo and Solvent Suppression


Lecture 19 - Spin Decoupling in FT NMR and Relaxation Measurements


Lecture 20 - Polarization Transfer


Lecture 21 - Nuclear Overhauser Effect


Lecture 22 - Steady state NOE and Transient NOE


Lecture 23 - Distance and NOE


Lecture 24 - Selective Population Inversion


Lecture 25 - INEPT and Sensitivity Enhancement


Lecture 26 - Rotating Frame Experiments


Lecture 27 - Density matrix description of NMR - I


Lecture 28 - Density matrix description of NMR - II


Lecture 29 - Density matrix description of NMR - III


Lecture 30 - Time evolution of density operator


Lecture 31 - Density matrix description of NMR - IV


Lecture 32 - Evolution of density operator in the presence of RF


Lecture 33 - Product operator formalism


Lecture 34 - Product operator formalism (Continued...)


Lecture 35 - Product operator formalism (Continued...)


Lecture 36 - Time evolution of basis operators


Lecture 37 - Observable and Non-observable basis operators, Spin echo


Lecture 38 - Spin echo (Continued...)


Lecture 39 - INEPT


Lecture 40 - Multidimensional NMR Spectroscopy


Lecture 41 - Two Dimensional NMR - Part I


Lecture 42 - Two Dimensional NMR - Part II


Lecture 43 - Types of 2D NMR Spectra


Lecture 44 - Two Dimensional Separation of Interaction in NMR


Lecture 45 - Two Dimensional Correlation Experiments - I


Lecture 46 - Two Dimensional Correlation Experiments - II


Lecture 47 - Two Dimensional Correlation Experiments - III


Lecture 48 - Double Quantum Filtered COSY (DQF-COSY)


Lecture 49 - Two Dimensional Nuclear Overhauser Effect Spectroscopy (2D- NOESY)


Lecture 50 - Constant-time COSY


Lecture 51 - Scaling in 2D NMR


Lecture 52 - Total Correlation Spectroscopy


Lecture 53 - 2D Heteronuclear Experiment - I


Lecture 54 - 2D Heteronuclear Experiment - II


Lecture 55 - Multidimensional NMR


Lecture 56 - Structure Determination of Peptides by NMR - I


Lecture 57 - Structure Determination of Peptides by NMR - II


Lecture 58 - Protein-Ligand Interaction - I


Lecture 59 - Protein-Ligand Interaction - II


Lecture 60 - Diffusion Ordered Spectroscopy