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Quick Facts
| Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
|---|---|---|
| English | Self Study | Video and Text Based |
Course Overview
Interpretative molecular spectroscopy Certification course is a 12-week certification course that offers the fundamentals of principles, methodologies, and applications of molecular spectroscopy in chemistry. Students are provided a deep understanding of theoretical as well as practical applications of the fascinating world of analog electronics with the Interpretative molecular spectroscopy certification by NPTEL.
Interpretative molecular spectroscopy training provides a practical as well as theoretical understanding of principles governing the interaction of electromagnetic radiation with molecules. Students will be able to gain diverse expertise in various molecular topics structures, functional groups, and chemical compounds using spectroscopic methods. With a hands-on learning approach, they will be able to excel in their domain and research approaches.
Also Read: Online Chemical Engineering Certification Courses
The Highlights
- IIT Bombay recognised Completion Certificate
- Learning from Trained Faculty Members
- Free Course Readings
- Hands-on projects
Programme Offerings
- online learning
- Robust curriculum
- Hands-on Learning
- Certified faculty and mentors
Courses and Certificate Fees
| Certificate Availability | Certificate Providing Authority |
|---|---|
| yes | IIT Bombay |
Eligibility Criteria
Certification Qualifying Details
Candidates for the Interpretative Molecular Spectroscopy certification course must qualify for the final examination to receive the completion certificate.
What you will learn
After completing the Interpretative Molecular Spectroscopy Certification syllabus, students will be able to master the art of molecular spectroscopy. Students will be able to develop proficiency in employing advanced spectroscopic methods for qualitative and quantitative analysis. They will be able to understand the approaches for enhanced research capabilities and understand the diverse problem-solving in analytical chemistry and related fields.
Who it is for
The Interpretative Molecular Spectroscopy Certification course is designed for a diverse range of professionals advancing their careers in the dynamics of analytical chemistry and molecular characterisation.
The course is apt for the following professionals:
Admission Details
To join the Interpretative Molecular Spectroscopy Certification classes, candidates must follow the below-mentioned steps:
Step 1: Visit the official course URL:
https://nptel.ac.in/courses/104101362
Step 2: Log in to the website and enrol for the programme.
Step 3: Enter relevant academic and personal details.
Step 4: Pay the course fee to complete the enrollment process
Step 5: Start learning
Application Details
Aspiring candidates need to visit the official course page to enroll in the online Interpretative Molecular Spectroscopy Certification Course. After that, they must complete the enrollment process by entering their details and course fees.
The Syllabus
Lectures 1 to 5
- Introduction to spectroscopy, different types of spectroscopic methods, General Process for Structure, Elucidation of an Unknown, Spectral Interpretation, brief discussion on all spectroscopic and analytical methods.
Lectures 6 – 10
- Introduction to NMR, Basic aspects, nuclear spin, magnetic field, shielding, NMR signals, NMR spectrometer, Proton NMR, NMR spectra of simple molecules, chemical shifts, coupling constants etc.
Lectures 10 – 15
- 1H NMR: 1H NMR spectra of organic, inorganic and organometallic compounds, different types of couplings. Compounds with other NMR active nuclei such as 11B, 19F, 31P and their interactions and couplings. Analysis and interpretation of numerous examples.
Lectures 15 – 20
- 13CNMR, brief introduction, interpretation of 13C NMR spectra. 31P NMR, brief introduction. Interpretation and analysis of 31P NMR spectra of phosphorus compounds, phosphines, coordination compounds and organometallic compounds containing organophosphorus ligands.
Lectures 20 – 25
- Studying reaction mechanisms using 1H and 31P NMR spectral data. Complex spectra containing several NMR active nuclei and understanding the splitting patterns.
Lectures 25 – 30
- Multinuclear NMR, Discussion on various NMR active nuclei other than 1H, 13C and 31P. NMR spectra of compounds containing lithium, boron, silicon, selenium, tungsten, rhodium and platinum.
Lectures 30 – 35
- UV-visible spectroscopy: microstates, term symbols, determining ground term. Selection rules, Spin-orbit coupling, classification of d-d transitions. Orgel diagram, TS-diagram. Charge transfer transitions.
Lectures 35 – 40
- Interpretation of electronic spectra of coordination compounds, d1— d9 system. Examples for each system. Application of UV-visible spectroscopy in understanding inorganic reaction mechanism.
Lectures 40 – 45
- IR spectroscopy, Brief introduction, Interpretation of IR spectra of inorganic, organic and organometallic compounds. Summary.
Lectures 45 – 50
- IR spectroscopy continued with more examples: Elucidation of structures using a combination of NMR, UV-visible and IR spectral data. Examples of inorganic, organic and organometallic compounds.
Lectures 50 – 55
- Mass spectrometry: Brief introduction, fundamentals of mass spectrometry. Different methods, Data interpretation. Examples of inorganic, organic and organometallic compounds.
Lectures 55 – 60
- Other applications and summarizing all spectroscopic methods.
Evaluation process
Candidates for the Interpretative Molecular Spectroscopy certification course must appear for the examinations to receive the completion certificate.
Instructors
IIT Bombay Frequently Asked Questions (FAQ's)
The certification course involves the analysis and interpretation of data obtained from various spectroscopic techniques to identify molecular structures and characterise chemical compounds.
The certification programme is 12 weeks in duration, where students are provided access to video lectures and resources.
This certification course is recognised by industry professionals and academic institutions, providing participants with valuable credentials in the foundations of remote sensing.
Yes, participants will receive a certification upon successful completion of the course, however, they have to pass the qualifying examination for the certification.
The course consists of short video lectures where the concept of modeling phenomena is discussed.