Sl.No | Chapter Name | MP4 Download |
---|---|---|
1 | Lec 01 Introduction to NMR | Download |
2 | Lec 02 NMR concepts and spin physics-I | Download |
3 | Lec 03 NMR concepts and spin physics-II | Download |
4 | Lec 04 Internal interaction parameters and chemical shifts | Download |
5 | Lec 05 Chemical shifts | Download |
6 | Lec 06 Scalar couplings | Download |
7 | Lec 07 Multiplicity patterns of coupled spins and analysis of 1H NMR spectrum | Download |
8 | Lec 08a+b Multiplicity pattern and analysis of NMR spectra -II | Download |
9 | Lec 09 Analysis of NMR spectra and their analysis | Download |
10 | Lec 10 Heteronuclear NMR | Download |
11 | Lec 11 Introduction to Fourier series | Download |
12 | Lec 12 Complex form of Fourier series | Download |
13 | Lec 13 Fourier theorems | Download |
14 | Lec 14 Fourier transformation in NMR | Download |
15 | Lec 15 Pople notation, construction of spin Hamiltonian | Download |
16 | Lec 16 "Quantum mechanical analysis of AX spectra" | Download |
17 | Lec 17 Quantum mechanical analysis of AB spin system | Download |
18 | Lec 18 Quantum mechanical analysis of coupled spin systems | Download |
19 | Lec 19 RF pulses and their phases | Download |
20 | Lec 20 Receiver phase and phase cycling | Download |
21 | Lec 21 Evolution of chemical shift | Download |
22 | Lec 22 Evolution of J couplings: polarization transfer | Download |
23 | Lec 23 selective saturation in homo and heteronuclear spin systems, coupled anddecoupled INEPT | Download |
24 | Lec 24 INEPT and DEPT | Download |
25 | Lec 25 Coherence transfer pathway | Download |
26 | Lec 26 Examples of coherence pathway selection | Download |
27 | Lec 27 Pulse field gradients-I | Download |
28 | Lec 28 Pulse field gradients-II | Download |
29 | Lec 29 Selective excitation, selective inversion | Download |
30 | Lec 30 Relaxation phenomenon | Download |
31 | Lec 31 T1 relaxation concepts and measurements | Download |
32 | Lec 32 Spectral density function and relaxation mechanisms | Download |
33 | Lec 33 T1 Relaxation mechanisms | Download |
34 | Lec 34 T1 Relaxation mechanisms and T2 relaxation | Download |
35 | Lec 35 Measurement of T1 and T2 | Download |
36 | Lec 36 Decoupling and NOE concepts | Download |
37 | Lec 37 DQ and ZQ relaxation pathways | Download |
38 | Lec 38 Positive and Negative NOE and spectral density functions | Download |
39 | Lec 39 NOE and correlation time | Download |
40 | Lec 40 Product operators | Download |
41 | Lec 41 Product operator analysis | Download |
42 | Lec 42 Productor operator analysis of pulse sequences | Download |
43 | Lec 43 Product operators for two J coupled spins | Download |
44 | Lec 44 Spin echo sequences | Download |
45 | Lec 45 Introduction to 2D NMR | Download |
46 | Lec 46 2D NMR concepts, 2D experiments | Download |
47 | Lec 47 2D COSY experiment | Download |
48 | Lec 48 2D COSY and its variants | Download |
49 | Lec 49 TOCSY Heteronuclear 2D experiments | Download |
50 | Lec 50 coupled and decoupled HSQC, HMBC, INADEQUATE, 2D Jresolved | Download |
51 | Lec 51 Introduction to multiple quantum NMR | Download |
52 | Lec 52 DQ and ZQ of coupled spins | Download |
53 | Lec 53 MQ and relative signs of couplings | Download |
54 | Lec 54 MQ and spin system filtering | Download |
55 | Lec 55 Introduction to solid state NMR | Download |
56 | Lec 56 CSA and dipolar couplings | Download |
57 | Lec 57 Magic Angle Spinning | Download |
58 | Lec 58 WAHUHA and Cross Polarization | Download |
59 | Lec 59 Cross Polarization | Download |
60 | Lec 60 CP at high speeds, Side band suppression, TOSS | Download |
Sl.No | Chapter Name | English |
---|---|---|
1 | Lec 01 Introduction to NMR | Download Verified |
2 | Lec 02 NMR concepts and spin physics-I | Download Verified |
3 | Lec 03 NMR concepts and spin physics-II | Download Verified |
4 | Lec 04 Internal interaction parameters and chemical shifts | Download Verified |
5 | Lec 05 Chemical shifts | Download Verified |
6 | Lec 06 Scalar couplings | Download Verified |
7 | Lec 07 Multiplicity patterns of coupled spins and analysis of 1H NMR spectrum | Download Verified |
8 | Lec 08a+b Multiplicity pattern and analysis of NMR spectra -II | Download Verified |
9 | Lec 09 Analysis of NMR spectra and their analysis | Download Verified |
10 | Lec 10 Heteronuclear NMR | Download Verified |
11 | Lec 11 Introduction to Fourier series | Download Verified |
12 | Lec 12 Complex form of Fourier series | Download Verified |
13 | Lec 13 Fourier theorems | Download Verified |
14 | Lec 14 Fourier transformation in NMR | Download Verified |
15 | Lec 15 Pople notation, construction of spin Hamiltonian | Download Verified |
16 | Lec 16 "Quantum mechanical analysis of AX spectra" | PDF unavailable |
17 | Lec 17 Quantum mechanical analysis of AB spin system | PDF unavailable |
18 | Lec 18 Quantum mechanical analysis of coupled spin systems | PDF unavailable |
19 | Lec 19 RF pulses and their phases | PDF unavailable |
20 | Lec 20 Receiver phase and phase cycling | PDF unavailable |
21 | Lec 21 Evolution of chemical shift | PDF unavailable |
22 | Lec 22 Evolution of J couplings: polarization transfer | PDF unavailable |
23 | Lec 23 selective saturation in homo and heteronuclear spin systems, coupled anddecoupled INEPT | PDF unavailable |
24 | Lec 24 INEPT and DEPT | PDF unavailable |
25 | Lec 25 Coherence transfer pathway | PDF unavailable |
26 | Lec 26 Examples of coherence pathway selection | PDF unavailable |
27 | Lec 27 Pulse field gradients-I | PDF unavailable |
28 | Lec 28 Pulse field gradients-II | PDF unavailable |
29 | Lec 29 Selective excitation, selective inversion | PDF unavailable |
30 | Lec 30 Relaxation phenomenon | PDF unavailable |
31 | Lec 31 T1 relaxation concepts and measurements | PDF unavailable |
32 | Lec 32 Spectral density function and relaxation mechanisms | PDF unavailable |
33 | Lec 33 T1 Relaxation mechanisms | PDF unavailable |
34 | Lec 34 T1 Relaxation mechanisms and T2 relaxation | PDF unavailable |
35 | Lec 35 Measurement of T1 and T2 | PDF unavailable |
36 | Lec 36 Decoupling and NOE concepts | PDF unavailable |
37 | Lec 37 DQ and ZQ relaxation pathways | PDF unavailable |
38 | Lec 38 Positive and Negative NOE and spectral density functions | PDF unavailable |
39 | Lec 39 NOE and correlation time | PDF unavailable |
40 | Lec 40 Product operators | PDF unavailable |
41 | Lec 41 Product operator analysis | PDF unavailable |
42 | Lec 42 Productor operator analysis of pulse sequences | PDF unavailable |
43 | Lec 43 Product operators for two J coupled spins | PDF unavailable |
44 | Lec 44 Spin echo sequences | PDF unavailable |
45 | Lec 45 Introduction to 2D NMR | PDF unavailable |
46 | Lec 46 2D NMR concepts, 2D experiments | PDF unavailable |
47 | Lec 47 2D COSY experiment | PDF unavailable |
48 | Lec 48 2D COSY and its variants | PDF unavailable |
49 | Lec 49 TOCSY Heteronuclear 2D experiments | PDF unavailable |
50 | Lec 50 coupled and decoupled HSQC, HMBC, INADEQUATE, 2D Jresolved | PDF unavailable |
51 | Lec 51 Introduction to multiple quantum NMR | PDF unavailable |
52 | Lec 52 DQ and ZQ of coupled spins | PDF unavailable |
53 | Lec 53 MQ and relative signs of couplings | PDF unavailable |
54 | Lec 54 MQ and spin system filtering | PDF unavailable |
55 | Lec 55 Introduction to solid state NMR | PDF unavailable |
56 | Lec 56 CSA and dipolar couplings | PDF unavailable |
57 | Lec 57 Magic Angle Spinning | PDF unavailable |
58 | Lec 58 WAHUHA and Cross Polarization | PDF unavailable |
59 | Lec 59 Cross Polarization | PDF unavailable |
60 | Lec 60 CP at high speeds, Side band suppression, TOSS | PDF unavailable |
Sl.No | Language | Book link |
---|---|---|
1 | English | Not Available |
2 | Bengali | Not Available |
3 | Gujarati | Not Available |
4 | Hindi | Not Available |
5 | Kannada | Not Available |
6 | Malayalam | Not Available |
7 | Marathi | Not Available |
8 | Tamil | Not Available |
9 | Telugu | Not Available |