Modules / Lectures
Module NameDownload
noc21_mm34_assignment_Week_0noc21_mm34_assignment_Week_0
noc21_mm34_assignment_Week_1noc21_mm34_assignment_Week_1
noc21_mm34_assignment_Week_10noc21_mm34_assignment_Week_10
noc21_mm34_assignment_Week_11noc21_mm34_assignment_Week_11
noc21_mm34_assignment_Week_2noc21_mm34_assignment_Week_2
noc21_mm34_assignment_Week_3noc21_mm34_assignment_Week_3
noc21_mm34_assignment_Week_4noc21_mm34_assignment_Week_4
noc21_mm34_assignment_Week_5noc21_mm34_assignment_Week_5
noc21_mm34_assignment_Week_6noc21_mm34_assignment_Week_6
noc21_mm34_assignment_Week_7noc21_mm34_assignment_Week_7
noc21_mm34_assignment_Week_8noc21_mm34_assignment_Week_8
noc21_mm34_assignment_Week_9noc21_mm34_assignment_Week_9
noc21_mm34assignment_Week12noc21_mm34assignment_Week12


Sl.No Chapter Name MP4 Download
1Lecture 01 : Fundamentals of electrochemistry, definition of primary and secondary batteriesDownload
2Lecture 02 : Primary batteries and Secondary batteriesDownload
3Lecture 03 : SupercapacitorsDownload
4Lecture 04 : Concepts of thermodynamics pertinent to electrochemical cellsDownload
5Lecture 05 : Kinetics of electrochemical cells and structural characteristics of electrodesDownload
6Lecture 06 : Introduction to EMF, redox potential, Faraday law and Nernst’s lawDownload
7Lecture 07 : Terminology related to secondary battery : half–cell,full–cell, redox couple,positiveDownload
8Lecture 08 : Measurements: Cyclic voltammetry, nominal voltage, capacity, rate performanceDownload
9Lecture 09 : Impedance spectroscopy measurement and analysesDownload
10Lecture 10 : Measurement of rechargeable cell: Case studyDownload
11Lecture 11 : History and categories of lithium batteriesDownload
12Lecture 12 : Operational mechanisms for lithium batteries: Intercalation materials, alloysDownload
13Lecture 13 : Differences of voltage profiles between intercalation materials, alloys, and conversionDownload
14Lecture 14 : Properties of electrode materials (Case study: alloy as anode)Download
15Lecture 15 : Properties of electrode materials (conversion type oxide as case study)Download
16Lecture 16 :Positive electrodes: Lithiated transition metal oxides, lithiated iron oxyphosphates etcDownload
17Lecture 17: Negative electrodes: Carbonaceous materials, lithium titanium oxides etc.Download
18Lecture 18 : Electrolyte :Liquid Electrolyte, Polymer ElectrolyteDownload
19Lecture 19 : Current Collector, Conductive Agents, Separator and Other AccessoriesDownload
20Lecture 20 : Novel materials for lithium ion rechargeable cellsDownload
21Lecture 21 : Principle of Operation of Commerical Cells : viz. C - NMC, C - NCA etc.Download
22Lecture 22: Principle of operation of commercial cellsDownload
23Lecture 23: Major characteristics of commercial Li ion cells: Cell performance,degradation phenomenaDownload
24Lecture 24: Fabrication of Li ion cell: Cylindrical configurationDownload
25Lecture 25: Fabrication of Li ion cell: Pouch and prismatic cellDownload
26Lecture 26 : Positive electrodes: Layered oxide, polyanionic compounds (phosphates, sulphates etc),Download
27Lecture 27 : Negative electrodes: Carbonaceous materials, alloy based and other materialsDownload
28Lecture 28 : Electrolytes: Roles and requirements, organic electrolyte, ionic liquid electrolyte,Download
29Lecture 29 : Performance of Na ion rechargeable cellDownload
30Lecture 30 : Future perspective of Na ion cellsDownload
31Lecture 31 : Introduction to battery module, BMS, thermal management and pack designDownload
32Lecture 32 : Degradation and safety issues of Li ion rechargeable cellsDownload
33Lecture 33 :Introduction to battery management system: BMS topologies, hardware, concept of active..Download
34Lecture 34 : Introduction to thermal management: Active thermal management system, passive thermal..Download
35Lecture 35 : Packaging of battery pack and battery testing: Material selection, sealing of enclosureDownload
36Lecture 36 : Classification of supercapacitors: EDLC and pseudocapacitative typeDownload
37Lecture 37 : PseudocapacitorDownload
38Lecture 38 : Asymmetric supercapacitor and BATCAP: Battery supercapacitor hybrid electrochemicalDownload
39Lecture 39 : Electrolytes for supercapacitors: Aqueous/organic liquid electrolytes/ionic liquidDownload
40Lecture 40 : Current collectors, separators etc. and their effect on performanceDownload
41Lecture 41 : Operational principles of aqueous and Li – O2 batteriesDownload
42Lecture 42 : Electrolytes for Li – O2 batteriesDownload
43Lecture 43 : Limitations of Li – Air batteriesDownload
44Lecture 44 : State of the art Li – Air batteries : Carbonaceous materialsDownload
45Lecture 45 : State of the art Li – Air batteries: Case studyDownload
46Lecture 46 : The element sulfur, principle of operationDownload
47Lecture 47 : Advantages and disadvantages of Li – S batteries, positive electrodesDownload
48Lecture 48 : Electrolyte and negative electrode for Li – S batteryDownload
49Lecture 49 : State of the art Li – S batteries : Case study - IDownload
50Lecture 50 : State of the art Li – S batteries : Case study - IIDownload
51Lecture 51 : Global Geographic Distribution of Raw Lithium ResourcesDownload
52Lecture 52 : Nature and geological origin of all potential lithium resourcesDownload
53Lecture 53 : State of the art extraction techniques and known production reservesDownload
54Lecture 54 : Recycling of lithium and other battery constituents from used batteryDownload
55Lecture 55 : Recycling of lithium and other battery constituents from used battery(Contd.)Download
56Lecture 56 : Lead Acid Batteries: Operational principles, main characteristics and applications ..Download
57L 57 : Lead Acid Batteries: Operational principles, main characteristics and applications....Download
58L 58 : Ni – Cd and Ni – MeH Batteries: Operational principles, main characteristics and applicationsDownload
59L 59 : Redox flow battery vanadium redox battery,operational principle, and main characteristicsDownload
60L 60 : Other Redox Flow Battery TechnologiesDownload

Sl.No Chapter Name English
1Lecture 01 : Fundamentals of electrochemistry, definition of primary and secondary batteriesDownload
Verified
2Lecture 02 : Primary batteries and Secondary batteriesDownload
Verified
3Lecture 03 : SupercapacitorsDownload
Verified
4Lecture 04 : Concepts of thermodynamics pertinent to electrochemical cellsDownload
Verified
5Lecture 05 : Kinetics of electrochemical cells and structural characteristics of electrodesDownload
Verified
6Lecture 06 : Introduction to EMF, redox potential, Faraday law and Nernst’s lawDownload
Verified
7Lecture 07 : Terminology related to secondary battery : half–cell,full–cell, redox couple,positiveDownload
Verified
8Lecture 08 : Measurements: Cyclic voltammetry, nominal voltage, capacity, rate performanceDownload
Verified
9Lecture 09 : Impedance spectroscopy measurement and analysesDownload
Verified
10Lecture 10 : Measurement of rechargeable cell: Case studyDownload
Verified
11Lecture 11 : History and categories of lithium batteriesDownload
Verified
12Lecture 12 : Operational mechanisms for lithium batteries: Intercalation materials, alloysDownload
Verified
13Lecture 13 : Differences of voltage profiles between intercalation materials, alloys, and conversionDownload
Verified
14Lecture 14 : Properties of electrode materials (Case study: alloy as anode)Download
Verified
15Lecture 15 : Properties of electrode materials (conversion type oxide as case study)Download
Verified
16Lecture 16 :Positive electrodes: Lithiated transition metal oxides, lithiated iron oxyphosphates etcDownload
Verified
17Lecture 17: Negative electrodes: Carbonaceous materials, lithium titanium oxides etc.Download
Verified
18Lecture 18 : Electrolyte :Liquid Electrolyte, Polymer ElectrolyteDownload
Verified
19Lecture 19 : Current Collector, Conductive Agents, Separator and Other AccessoriesDownload
Verified
20Lecture 20 : Novel materials for lithium ion rechargeable cellsDownload
Verified
21Lecture 21 : Principle of Operation of Commerical Cells : viz. C - NMC, C - NCA etc.Download
Verified
22Lecture 22: Principle of operation of commercial cellsDownload
Verified
23Lecture 23: Major characteristics of commercial Li ion cells: Cell performance,degradation phenomenaDownload
Verified
24Lecture 24: Fabrication of Li ion cell: Cylindrical configurationDownload
Verified
25Lecture 25: Fabrication of Li ion cell: Pouch and prismatic cellDownload
Verified
26Lecture 26 : Positive electrodes: Layered oxide, polyanionic compounds (phosphates, sulphates etc),Download
Verified
27Lecture 27 : Negative electrodes: Carbonaceous materials, alloy based and other materialsDownload
Verified
28Lecture 28 : Electrolytes: Roles and requirements, organic electrolyte, ionic liquid electrolyte,Download
Verified
29Lecture 29 : Performance of Na ion rechargeable cellDownload
Verified
30Lecture 30 : Future perspective of Na ion cellsDownload
Verified
31Lecture 31 : Introduction to battery module, BMS, thermal management and pack designDownload
Verified
32Lecture 32 : Degradation and safety issues of Li ion rechargeable cellsDownload
Verified
33Lecture 33 :Introduction to battery management system: BMS topologies, hardware, concept of active..Download
Verified
34Lecture 34 : Introduction to thermal management: Active thermal management system, passive thermal..Download
Verified
35Lecture 35 : Packaging of battery pack and battery testing: Material selection, sealing of enclosureDownload
Verified
36Lecture 36 : Classification of supercapacitors: EDLC and pseudocapacitative typeDownload
Verified
37Lecture 37 : PseudocapacitorDownload
Verified
38Lecture 38 : Asymmetric supercapacitor and BATCAP: Battery supercapacitor hybrid electrochemicalDownload
Verified
39Lecture 39 : Electrolytes for supercapacitors: Aqueous/organic liquid electrolytes/ionic liquidDownload
Verified
40Lecture 40 : Current collectors, separators etc. and their effect on performanceDownload
Verified
41Lecture 41 : Operational principles of aqueous and Li – O2 batteriesDownload
Verified
42Lecture 42 : Electrolytes for Li – O2 batteriesDownload
Verified
43Lecture 43 : Limitations of Li – Air batteriesDownload
Verified
44Lecture 44 : State of the art Li – Air batteries : Carbonaceous materialsDownload
Verified
45Lecture 45 : State of the art Li – Air batteries: Case studyDownload
Verified
46Lecture 46 : The element sulfur, principle of operationDownload
Verified
47Lecture 47 : Advantages and disadvantages of Li – S batteries, positive electrodesDownload
Verified
48Lecture 48 : Electrolyte and negative electrode for Li – S batteryDownload
Verified
49Lecture 49 : State of the art Li – S batteries : Case study - IDownload
Verified
50Lecture 50 : State of the art Li – S batteries : Case study - IIDownload
Verified
51Lecture 51 : Global Geographic Distribution of Raw Lithium ResourcesDownload
Verified
52Lecture 52 : Nature and geological origin of all potential lithium resourcesDownload
Verified
53Lecture 53 : State of the art extraction techniques and known production reservesDownload
Verified
54Lecture 54 : Recycling of lithium and other battery constituents from used batteryDownload
Verified
55Lecture 55 : Recycling of lithium and other battery constituents from used battery(Contd.)Download
Verified
56Lecture 56 : Lead Acid Batteries: Operational principles, main characteristics and applications ..Download
Verified
57L 57 : Lead Acid Batteries: Operational principles, main characteristics and applications....Download
Verified
58L 58 : Ni – Cd and Ni – MeH Batteries: Operational principles, main characteristics and applicationsDownload
Verified
59L 59 : Redox flow battery vanadium redox battery,operational principle, and main characteristicsDownload
Verified
60L 60 : Other Redox Flow Battery TechnologiesDownload
Verified


Sl.No Language Book link
1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available