Başkent Üniversitesi | Bilgi Paketi

COURSE UNIT TITLE	COURSE UNIT CODE	SEMESTER	THEORY + PRACTICE (Hour)	ECTS
STRUCTURE ELUCIDATION IN DRUGS	ECZ438	-	2 + 0	2

TYPE OF COURSE UNIT

Elective Course

LEVEL OF COURSE UNIT

Bachelor's Degree

YEAR OF STUDY

SEMESTER

NUMBER OF ECTS CREDITS ALLOCATED

NAME OF LECTURER(S)

Professor Osman Cihat Şafak

LEARNING OUTCOMES OF THE COURSE UNIT

At the end of this course, the students;
1) Learns the basic spectral methods used in the structure of organic compounds.
2) Evaluates the spectra obtained from these methods

MODE OF DELIVERY

Face to face

PRE-REQUISITES OF THE COURSE

RECOMMENDED OPTIONAL PROGRAMME COMPONENT

None

COURSE DEFINITION

Structure determination of drug active ingredients. Introduction to spectroscopy and basic principles. Ultraviyolet and visible spectroscopy. Infrared spectroscopy, Nuclear magnetic resonance spectroscopy, Mass spectroscopy.

COURSE CONTENTS

WEEK	TOPICS
1^st Week	Structure determination of drug active ingredients
2^nd Week	Introduction to spectroscopy and basic principles
3^rd Week	Introduction to spectroscopy and basic principles
4^th Week	Ultraviyolet and visible spectroscopy
5^th Week	Infrared spectroscopy
6^th Week	Infrared spectroscopy
7^th Week	Midterm exam
8^th Week	Nuclear magnetic resonance spectroscopy
9^th Week	Nuclear magnetic resonance spectroscopy
10^th Week	Nuclear magnetic resonance spectroscopy
11^th Week	Nuclear magnetic resonance spectroscopy
12^th Week	Nuclear magnetic resonance spectroscopy
13^th Week	Mass spectroscopy
14^th Week	Mass spectroscopy

RECOMENDED OR REQUIRED READING

1. Silverstein, R.M., Webster F. X., `Spectrometric Identification of Organic Compounds?, New York, 2005.
2. Ergenç, N., `İlaçların Tanınması ve Kalitatif Tayini? İstanbul, 1989.
3. Skoog, D.A., West D.M., `Principle of Instrumental Analysis? Philadelphia, 1980.
4. Willard H. H., Merritt L. L., Dean J. A., Seettle, F. A., `Instrumental Method of Analysis?, Belmont California (1988).
5. Pouchert, C.J., Behnke, J., The Aldrich Library of 13C and 1H FT-NMR Spectra, Aldrich Chemical, Milwaukee (1992)
6. Balcı M., `Nucleer Magnetic Rezonans Spektroskopisi?, Ankara 2000.
7. Williams, D.H., Fleming, I., Spectroscopic Methods in Organic Chemistry, London (1995).
8. Crews P., Rodriguez J, Jaspars M., Organic Structure Analysis, New York (1998).
9. Shriner R L., Hermann C., Morrill TC., Curtin DY., Fuson RC, The Systematic Identification of Organic Compounds (1999).
10. Hesse, M., Meier, H., Zeeh, B., Spectroscopic Methods in Organic Chemistry, Thieme, Stuttgart (2008).

PLANNED LEARNING ACTIVITIES AND TEACHING METHODS

Lecture,Questions/Answers,Problem Solving,Discussion

ASSESSMENT METHODS AND CRITERIA

	Quantity	Percentage(%)
Mid-term	1	40
Total(%)		40
Contribution of In-term Studies to Overall Grade(%)		40
Contribution of Final Examination to Overall Grade(%)		60
Total(%)		100

ECTS WORKLOAD

Activities	Number	Hours	Workload
Midterm exam	1	1	1
Preparation for Quiz	0	0	0
Individual or group work	14	1	14
Preparation for Final exam	1	10	10
Course hours	14	2	28
Preparation for Midterm exam	1	5	5
Laboratory (including preparation)	0	0	0
Final exam	1	2	2
Homework	0	0	0
Total Workload			60
Total Workload / 30			2
ECTS Credits of the Course			2

LANGUAGE OF INSTRUCTION

Turkish

WORK PLACEMENT(S)

KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)
	LO1	LO2
K1
K2
K3
K4
K5
K6
K7
K8
K9
K10
K11
K12
K13
K14
K15
K16