A.Y. 2020-21

In this course we will look into the basics of

1.  Symmetry operations and elements

2. Group theory: Definition of reducible and irreducible representations, Use of group theory to determine the irreducible representation

3. Assignment of point groups leading to definition of components of character tables (irreducible representations, characters – at least the interpretation of the sign of the character)

4. Zeeman effect: Effect on the energies of a system by application of a magnetic field; Magnetochemistry, spin and orbital contribution to the magnetic moment

5. Magnetic resonance spectroscopies: EPR spectroscopy, hyperfine coupling application to organic radicals and to transition metal complexes

6. Fates of electronic excited states – fluorescence and phosphorescence, non-radiative transitions, internal conversion and intersystem crossing, fluorescence spectra

In this course you will learn about excipients, different formulations, ADME, and pharmacokinetic parameters that affect distribution of a drug in the body

Polymer Materials: Principles and Processing

This course enables students to perform computational drug discovery and introduces them to the human immune system

Cyber Security Module 1 and Module 2

For B.Sc. Blended Second year students of IDSS

Please go through the E-content of this course.

Please go through the E-content of this topic.

This course provides an understanding of TOXICOLOGY and PLANT BIOCHEMISTRY. 

In the toxicology section, principles, evaluation, biotransformation and applications of toxicology have been included. 

The plant biochemistry section involves a thorough understanding of mineral nutrition, photosynthesis, nitrogen and sulphur metabolism, plant hormones, plant secondary metabolites, biochemistry and physiology of seed germination and dormancy, etc. and plant diseases. 

This the dummy test created for students so that they should understand the process of taking the online examination from Moodle platform.

This course is created to demonstrate -

(i) how to import question bank in the moodle and add questions to your quiz. 

(ii) How to randomize the questions that are appearing in the quiz and

(iii) how to add sections in the quiz

This course is designed for M.Sc. Organic Chemistry students at Semester III.  The course carries 4 credits upon completion. It includes basic and advanced 1H, 13C NMR-spectroscopy, Two dimensional (2D) NMR techniques, and Mass spectrometry. Students can able to interpret the structure of organic molecules based on the joint application of UV, IR, 1H, and 13C NMR, 2D, and Mass spectral data.

This course is designed for M.Sc. Analytical Chemistry students at Semester III.  The course carries 4 credits upon completion. It includes basic and advanced 1H, 13C NMR-spectroscopy, Two dimensional (2D) NMR techniques, and Mass spectrometry. Students can able to interpret the structure of organic molecules based on the joint application of UV, IR, 1H, and 13C NMR, 2D, and Mass spectral data.

This course is designed for M.Sc. Medicinal Chemistry students at Semester III.  The course carries 4 credits upon completion. It includes basic and advanced 1H, 13C NMR-spectroscopy, Two dimensional (2D) NMR techniques, and Mass spectrometry. Students can able to interpret the structure of organic molecules based on the joint application of UV, IR, 1H, and 13C NMR, 2D, and Mass spectral data.

Sem III

Inorganic Chemistry

Credits (2)

This course is designed for the 2^nd yr analytical chemistry students. Students will learn about the basic concepts of analytical chemistry along with types of instrumental methods, concept and application of automation in analysis domain, understanding about the dissolution of inorganic and organic samples. Students also get an idea about the use of semiconductor devices in instruments, their working and importance of current-voltage curves and logic devices in computers. Under this course students will also learn about the basic principles of heterogeneous catalysis, its types and different commercial applications.   

This course is delineated for the inorganic 2^nd yr students. By learning this course, students will get an acquaint with concept of photochemistry; Jablonski diagram, Photophysical  systems,  photochemical reactions involving in chlorophyll, chemical actinometers etc. and different reaction types viz. non-chelate forming reactions, chelate ring forming reactions and isomerization reaction of thermal and photochemical types of four coordinated and six coordinated of metal complexes.  

These lectures give a brief summary of classical mechanics and how there from are explore further to understand Quantum Chemistry.

Pharmacodynamics, concept and application of therapeutic drug monitoring (TDM).

Pharmacokinetics consideration for adverse effect and drug interaction. Clinical

pharmacokinetics of selected drugs.