SPECTROSCOPY
ADVANCE LEVEL COURSE
Course Description:
Despite advancements in HPLC methods andtechnology, there are still issues that can rear their ugly head when using an HPLC system.
• In this cSpectroscopic analysis has been crucial in the development of the most fundamental theories in physics, including quantum mechanics, theories of relativity, and quantum electrodynamics. It has also
been a key tool in developing scientific understanding of both electromagnetic and nuclear forces. Spectroscopic techniques have been applied in virtually all technical fields of science and technology, such as magnetic resonance imaging for medical patients and the astrochemistry of distant
stars and intergalactic molecules. will study common problems of HPLC and how to deal with them
Key Points:
•Introduction
• Basic working principle
• Common types of spectroscopy
•Problem associated with each type
Trainee Introduction
• I am Tasneem Rashid, a Pharmacist. I had done my graduation of Doctorate of Pharmacy from Hamdard University in
2022.
• Right now I amWorking in Medi sure Pharmaceutical Laboratory as Regulatory Affairs Officer.
• I had some practical experience during my university life as an internee by doing internships in Industrial sector as well as
Clinical sector.
• On Industrial side I have an experience as a trainee in Pakistan Council of Scientific And Industrial Research Laboratory
Complex Karachi (PCSIR). I had also done an online course of pharmacovigilance.
• On clinical side I have an experience as a trainee pharmacist in Naimat Beghum hospital Karachi, along with onsite
experience I had done few online courses in clinical discipline.
• I also have an experience as a trainee pharmacist in community pharmacy.
• During my graduation I have participated in different seminars arranged by Agha khan hospital in collaboration with five
IQ.
• I have also participated in under graduate research work.
• I have acquainted myself with a range of skills that would allow me to blend with your company. My internships had
provide me some experience on different pharmacist domain works. I am confident that my knowledge ,positive attitude
even under pressure, and precise attention to detail would make me an asset to your company. My organizational,
presentation and multitasking skills are all advanced. I am sure that my all these experiences will help me start contributing
quickly at your company.
• I can be reached anytime via my email [email protected].
• Lindin Profile: https://www.linkedin.com/in/tasneem-rashid-4204921b9
Course objective In this class, students will learn the theoretical
principles of molecular spectroscopy and how to
apply these principles to photon and electron
spectroscopy. Students will complete the class
with the necessary background to tackle more
advanced spectroscopic applications.
Learning outcomes
On completion of the course, the student should be able to:
have achieved advanced knowledge about the interactions of electromagnetic
radiation and matter and their applications in spectroscopy.
be able to apply formalisms based on molecular symmetry to predict
spectroscopic properties.
be able to analyze and interpret spectroscopic data collected by the methods
discussed in the course.
be able to solve problems related to the structure, purity and concentration
of chemicals and to study molecular interactions by choosing suitable spectroscopic methods and interpreting corresponding data.
Who should attend
Best for:
• R&D Scientists
• QA Managers & Practicing Chemists
• Students in disciplines of Chemistry, Pharmacy, Food & Nutrition and Agricultural Sciences.
• Geological and Mining scientists
• Clinical researchers
• Govt Regulatory Bodies
• Environmental Scientists
• R AND D Analyst
• QC Analyst
Course content:
week1
Introduction to spectroscopy
Week 2
Basic principal
Week 3
Difference between spectroscopy
and spectrometry
Week 4
Spectrometer
Week 5
Classification of methods
Week 6-20
Common types of spectroscopy(introduction ,working principle, instruments, method of detection,
spectrum identification and peak signaling, trouble shooting )
Fluorescence spectroscopy X-ray spectroscopy and crystallography
Flame spectroscopy Plasma emission spectroscopy
Spark or arc emission spectroscopy Uv/vis spectroscopy
IR spectroscopy Raman Spectroscopy
NMR Spectroscopy Photo thermal Spectroscopy
Thermal Infra Red spectroscopy Mass Spectroscopy
