1. The document discusses various techniques used for determining molecular structures including infrared spectroscopy, X-ray crystallography, electron diffraction, and nuclear magnetic resonance spectroscopy. 2. It also discusses computer-aided structure elucidation (CASE) systems and software like SMOG and StrucEluc that can generate and analyze potential molecular structures based on spectral data. 3. CASE systems have been widely used in pharmaceutical companies and universities for decades to help scientists more efficiently determine unknown molecular structures.

2. ROLE OF COMPUTER IN DETERMINATION
OF MOLECULAR STRUCTURES
• SUBMITTED TO:
• MAM AMINA UMER
• SUBMITTED BY:
• 2018-CH-9
• 2018-CH-35
• 2018-CH-57

3. HAMZA SOHAIL
• IR Spectroscopy
• X-ray Crystallography
• Electron Diffraction
• Nuclear Magnetic Resonance
Spectroscopy

4. Infra Red Spectroscopy
For determination of molecular
structures
Most
powerful
Technique
Atoms start vibrating due to IR rays
Vibrating
Phenomen
on
At which those vibrations happened
Frequency
Determina
tion

5. X-RAY CRYSTALLOGRAPHY
X rays beam directed
at crystal
Core electrons diffract
x rays
Mobile detector that
measures position and
relative intensities
Electron density map
3D image projected on
computer

6. ELECTRON DIFFRACTION
Much similar to X-ray
crystallography
Beam of electron that scatter
off molecular electrons
Much
smaller and
low melting
Must
maintain its
structure
Accuracy of
atom location
is lower

7. 50 years ago
•Most efficient technique
•Complete analysis
Non destructive
technique
•Latest Instruments
•Large amount of sample required
Very accurate
technique
•Sample weighing less than a milligram
•Physical Principles must understand
Nuclear Magnetic Resonance Spectroscopy

8. NMR
Isotopes have
characteristics
spin
Integral spin
1, 2, 3 etc.
Structure
determined by
computer
By using spin
Few have no
spin
C-12, O-16 etc.
Fractional
spin
0.5, 1.5 etc.

9. Spinning charge produces
magnetic field
Two states of spin exists
+1/2 & -1/2
Energy difference is very
small
∆𝐸 depends upon external 𝐁
Characteristics

10. Figure shows
that spin states
have same E
when B is zero
Spin states
diverge when
field increases
Two states of spin

11. Strong magnetic
field is necessary
Earth’s magnetic
field does not
remain constant
Latest instruments
use magnets of
magnetic field 1-
20 T
At ground
level=0.0001 T
SI unit of B is Tesla

12. • Even at high fields, energy difference is less than 0.1
calorie per mole.
• For nmr purposes small energy difference depend
upon:
• 1). Strength of magnetic field
• 2). Specific nucleus
• Usually given in terms of frequency in units of Mega
Hertz (MHz)
• Ranging from 20-900 MHz.

14. COMPUTER GENERATION
OF MOLECULAR
STRUCTURE BY THE SMOG
PROGRAM
MUHAMMAD AHMED

15. ROLE OF COMPUTER IN DETERMINING
MOLECULAR STRUCTURES
• Abstract :
1. Theoretical Graph Algorithm
2. Effectively use for substructures
3. Consideration of various Valence states
4. Forbidden structures
5. Output graphs visualized as 2D

16. INTRODUCTION TO SMOG PROGRAM
• Importance in mathematical chemistry
• Important in developing organic structures
• SMOG software designer
• Main objective
• Techniques like Spectroscopy and QASAR studies etc.

17. ELEMENTS OF METHADOLOGY
Molecular Graphs
Various Valence states

18. VARIOUS VALENCE
STATES
 Valence state of elements
Generation process repeated
Considering example of
C2H2N2O

19. FlowsheetDiagram

20. CONCLUSION
conclusion
SMOG programs
runs on IBM PC
compatible
computer with
an EGA or VGA
card.
SMOG
program
is written
in CC++
Required
2-3 Mb
for
storing
structure
The
program
occupies 1
Mb of
disk
space.

21. Abdul Qadir
2018-CH-35
Computer-Aided
Structure Elucidation

22. HISTORY

23. 19 𝑡ℎ
century
• Computer-assisted Method
CASE
• Computer-aided Structure Elucidation
• information extracted from different
forms of spectra
Forty
years ago
• CASE was applied to "small molecules"
• The First Reports Concerned To Case
Systems Were Published
History

25. General principles of the CASE systems
A molecule as a "machine" for coding
structural information
we excite the system with
electromagnetic radiation .
we obtain IR, UV-VIS, NMR,
Raman and mass-spectra
The molecule under analysis acts
like a specific coding machine
The goal of a analyst is to decode
these codes and extract the max
information of a structure

26. Sample Footer Text 1/17/2019 26
Some examples

27. FLOW
SHEET
DIAGRAM
OF CASE
SYSTEM

28. At this time, well over a quarter million new
compounds are synthesized and about 27
million compounds have been identified
The StrucEluc system (structure
elucidation) provides capabilities to form
user databases
It can be successfully used for the creation of a
user database even if only one compound of a
similar structure is known
User data base
application

29. SYSTEM EFFICIENCY AND FUTURE WORK
StrucEl
uc
system
System is
based on
highly
sophisticated,
flexible for
structure
generation
Developed for
the
calculations of
properties of
organic
molecules
from their
structures
Widely used at
many
pharmaceutical
companies and
universities
worldwide
The total
time for
solving
problems <
one minute

30. MOST COMMON SOFTWARE'S OF CASE
• Mnova
• CMC-se by Bruker

31. Highlights of MNOVA

32. Features of MNOVA

33. REACTION
MONITORING

34. It’s use in different areas

36. •Fully automated
structure
elucidation
•Will receive
increasing
acceptance in the
next decade
•StrucEluc
system is still
being intensively
developed
•Developed over a
period of forty
years
This development
path has forced the
developers to solve
many problems for
the development of a
software capable
reducing the time
and effort
In order to expand
the general
application,
improved workflows
and usability of the
system and
increased reliability
of results
The efficiency of
expert systems is
enhanced the
solution of
increasingly complex
structural problems
will be achievable.
Ultimately be
integrated directly
to analytical
instruments for the
purpose of organic
analysis
Conclusion