Presentation is loading. Please wait.

Presentation is loading. Please wait.

TASHKENT MEDICAL ACADEMY Department of Bioorganic and Biological Chemistry Bioorganic chemistry FIRST COURSE SUBJECT: Mutual influence of atoms in molecules.

Published byEdgar Preston Modified over 9 years ago

Similar presentations

Presentation on theme: "TASHKENT MEDICAL ACADEMY Department of Bioorganic and Biological Chemistry Bioorganic chemistry FIRST COURSE SUBJECT: Mutual influence of atoms in molecules."— Presentation transcript:

1 TASHKENT MEDICAL ACADEMY Department of Bioorganic and Biological Chemistry Bioorganic chemistry FIRST COURSE SUBJECT: Mutual influence of atoms in molecules of organic compounds, and methods of transmission. PAIRING. Aromaticity. Acidic and basic organic compounds. LECTURE №2 LECTURER: PROFESSOR A.D.DZHURAEV

2 The purpose of the lecture Generate knowledge of electronic effects as the main mode of transmission of mutual influence of atoms and electronic structure of molecules with conjugated bonds as thermodynamically stable systems that are used in the construction of biologically important compounds, as well as build knowledge of acidity and basicity of organic compounds as the most important properties that determine most of the chemical reactions in living organisms.

3 The Questions of: Types of systems Stability of conjugated systems Types of pairing Aromaticity, the criteria of aromaticity Spatial effects Acidity of organic compounds Most of the organic compounds

4 Spatial structure of organic compounds (stereoisomers). CONFIGURATION Configuration - This spatial arrangement of atoms or atomic groups WITHOUT possible conformations. EthaneAminoethanol

5 Conformation Conformation - This different geometric shapes into each other and the resulting atomic groups Spin Around One or more  - Communication. Eclipsed Canted Inhibited

6 Energy different conformations 0 o 60 o 120 o 180 o 240 o 300 o energy kJ / mol Torsion angle Eclipsed Inhibited canted

7 Conformation of cyclic compounds "Chair" form "Bath" form "Twist" form

8 Mutual influence of atoms in the molecule and the way it TRANSMISSION Inductive effect INDUCTIVE EFFECT - mutual influence of atoms SUBMITTED On  - Communication

9 Mesomeric effect Mesomeric effects - electronic influence vice Submitted On  - Communication.

10 ELECTRON-DONATING SUBSTITUENTS - DEPUTY SHIFTS THE ELECTRON DENSITY FROM THE SELF. TO TREAT THEM - NR2, - NHR, - NH2, - OH, - OR, - CH3, -I, -BR, -CL, -F ELECTRON-WITHDRAWING SUBSTITUENTS - DEPUTY SHIFTS THE ELECTRON DENSITY TO THE ME. TO TREAT THEM-NO3, -CN, -SO3H, -COOR, -COOH, -CHO Electron-donor and electron-withdrawing substituents

11 1. CUMULATED SYSTEM  С = С = С = С = С – С = С = С =С  2. ISOLATED SYSTEM  С = С - (СН 2 )N – С = С   3. CONJUGATE SYSTEM  С = С - С = С - С = С - С = С          TYPES OF SYSTEMS

12 OPEN INTERFACE CIRCUIT СН 2 = СН - СН = СН 2 BUTADIENE - 1,3 CONJUGATE SYSTEMS

13 Conjugated systems With Closed Circuit CIRCUIT INTERFACE

14 TYPES OF INTERFACE ,  -pairing - when p - orbitals of all-chain atoms are involved in the formation of  - electron cloud, and the formation of  - communication

15 TYPES OF INTERFACE р,  - conjugation – when р- orbitals of the heteroatom involved only in education  -electron cloud, but not in education  -communication СН 2 = СН – CI VINYL CHLORIDE

16 1. THE SYSTEM SHOULD HAVE CLOSED FLAT  - SKELETON 2. ALL ATOMS IN THE CHAIN MUST BE IN SP2-HYBRIDIZATION 3. RULE HUCKEL SYSTEM SHOULD CONTAIN 4 N + 2  ELECTRONS Criteria for aromaticity

17 BRONSTED ACIDS - ARE NEUTRAL MOLECULES OR IONS, ARE ABLE TO GIVE PROTON (PROTON DONOR). ACIDITY ORGANIC COMPOUNDS А - Н + : В  А- + В – Н Acid basis conjugate conjugate base acid

18 СН 3 СООН + Н 2 О  СН=СОО- + Н 3 О+ ACETIC ACID BASE ACETATE ION HYDRONIUM ION. (СОПРЯЖЕННОЕ ОСНОВ) (СОПРЯЖЕННАЯ К-ТА) FOR THE REACTION EQUILIBRIUM CONSTANT EQUAL : Equilibrium constant   ΟΗ C ΟΟ НC Η ΟΗ C C Η Κ 23 33  

19 ACIDITY CONSTANT EQUAL VALUE: Р К А = – LG К А acidity constant Product K * [H2O] is constant acidity (Ka)      Н    C C CC KK a 3 33 2 *

20 О - Н ACID CARBOXYLIC ACIDS, ALCOHOLS, PHENOLS S – H ACID THIOLS, THIOETHERS N – H ACID AMIDES, AMINES, IMIDES C – H ACID HYDROCARBONS AND THEIR DERIVATIVES Bronsted acid:

21 1. ON THE ABILITY OF THE ATOMS ARE BONDED TO HYDROGEN, KEEP YOURSELF IN ELECTRON PAIR AFTER THE DEPARTURE OF THE PROTON (OT ITS ELECTRONEGATIVITY) 2. THE SIZE OF THE ATOM IS BONDED WITH HYDROGEN (ATOMIC POLARIZABILITY) 3. FROM POSSIBLE DELOCALIZATION (REDISTRIBUTION) OF NEGATIVE CHARGE ON THE OTHER ATOMS (ON THE PRESENCE OF CONJUGATED SYSTEMS) 4. ON THE ABILITY OF THE SOLVATED ANION Stability anion depends on the following factors:

22 С 2 Н 5 ОН = С 2 Н 5 О- + Н+ С 2 Н 5 SН = С 2 Н 5 S- + Н+ С 2 Н 5 SН > С 2 Н 5 ОН acidic compounds

23 СН– ACID< NH – ACID< OH- ACID<SH- ACID Increasing the power acidity among Bronsted acid CHOH C CH 3 OH C 2 H 5 (CH 3 ) 2 (CH ) 3 3 HCOOH> 3 CH COOH>(CH 3 ) 3 C - COOH

24 REASONS BRONSTED - THIS NEUTRAL MOLECULES OR IONS, WHICH TAKE PROTON (PROTON ACCEPTOR) REASONS BRONSTED Distinguish between two types of Bronsted Reasons: π- GROUNDS n-GROUNDS (onium )

25 THESE REASONS TO APPLY - ALKENES, ALKADIENES, ARENA. CENTER OF MAIN, THAT IS THE POINT OF ATTACHMENT OF THE PROTON, IS THE ELECTRONIC π -COMMUNICATIONS. π-ОСНОВАНИЯ

26 DEPENDING ON THE NATURE OF THE HETEROATOM, THAT IS BY CENTER MAINLY DIFFER: А) AMMONIUM Б) OXONIUM В) SULFONIUM n-GROUNDS (onium )

Download ppt "TASHKENT MEDICAL ACADEMY Department of Bioorganic and Biological Chemistry Bioorganic chemistry FIRST COURSE SUBJECT: Mutual influence of atoms in molecules."

Similar presentations

Arrhenius Definition Acids produce hydrogen ions in aqueous solution.

Arrhenius Definition Acids produce hydrogen ions in aqueous solution.
Functional Groups, Orbitals, and Geometry. Resonance Structures.

Functional Groups, Orbitals, and Geometry. Resonance Structures.
Updates Assignment 05 is is due Monday, Mar. 05 (in class) Midterm 2 is Thurs., March 15 –Huggins 10, 7-8pm –For conflicts: ELL 221, 6-7pm (must arrange.

Updates Assignment 05 is is due Monday, Mar. 05 (in class) Midterm 2 is Thurs., March 15 –Huggins 10, 7-8pm –For conflicts: ELL 221, 6-7pm (must arrange.
**We will continue talking about acid/base chemistry. Bring the last 5 slides from lecture 6 to lecture 7.**

**We will continue talking about acid/base chemistry. Bring the last 5 slides from lecture 6 to lecture 7.**
4- 1 Br ø nsted-Lowry and Lewis Acids/Bases Acid Dissociation Constants, pKa, the Relative strength of Acids and Bases. [electron pushing, arrows, electronic.

4- 1 Br ø nsted-Lowry and Lewis Acids/Bases Acid Dissociation Constants, pKa, the Relative strength of Acids and Bases. [electron pushing, arrows, electronic.
4 4-1 Organic Chemistry William H. Brown & Christopher S. Foote.

4 4-1 Organic Chemistry William H. Brown & Christopher S. Foote.
Reactions of Alkyl Halides

Reactions of Alkyl Halides
4-1 Organic Chemistry William H. Brown Christopher S. Foote Brent L. Iverson William H. Brown Christopher S. Foote Brent L. Iverson.

4-1 Organic Chemistry William H. Brown Christopher S. Foote Brent L. Iverson William H. Brown Christopher S. Foote Brent L. Iverson.
Benzene & Aromatic Compounds By: Dr. Shatha alaqeel

Benzene & Aromatic Compounds By: Dr. Shatha alaqeel
Organic Functional Groups

Organic Functional Groups
By: Dr. Siham Lahsasni. BENZENE : Resonance description Later spectroscopic evidence showed all bond lengths in benzene to be equal and intermediate between.

By: Dr. Siham Lahsasni. BENZENE : Resonance description Later spectroscopic evidence showed all bond lengths in benzene to be equal and intermediate between.
Chapter 14 Aromatic Compounds. Benzene – a remarkable compound Discovered by Faraday 1825 Formula C6H6 Highly unsaturated, but remarkably stable Whole.

Chapter 14 Aromatic Compounds. Benzene – a remarkable compound Discovered by Faraday 1825 Formula C6H6 Highly unsaturated, but remarkably stable Whole.
Amino acids as amphoteric compounds

Amino acids as amphoteric compounds
4- 1 Br ø nsted-Lowry and Lewis Acids/Bases Acid Dissociation Constants, pKa, the Relative strength of Acids and Bases. [electron pushing, arrows, electronic.

4- 1 Br ø nsted-Lowry and Lewis Acids/Bases Acid Dissociation Constants, pKa, the Relative strength of Acids and Bases. [electron pushing, arrows, electronic.
Chapter 15 Organic Chemistry. “Organic chemistry …is enough to drive one mad. It gives me the impression of a primeval forest, full of the most remarkable.

Chapter 15 Organic Chemistry. “Organic chemistry …is enough to drive one mad. It gives me the impression of a primeval forest, full of the most remarkable.
Chapter 2 Lecture Outline

Chapter 2 Lecture Outline
ORGANIC CHEMISTRY AP CHEMISTRY. © 2009, Prentice-Hall, Inc. Organic Chemistry Organic chemistry is the chemistry of carbon compounds. Carbon has the ability.

ORGANIC CHEMISTRY AP CHEMISTRY. © 2009, Prentice-Hall, Inc. Organic Chemistry Organic chemistry is the chemistry of carbon compounds. Carbon has the ability.
Chapter 1 An Introduction to Organic Reactions Nabila Al- Jaber

Chapter 1 An Introduction to Organic Reactions Nabila Al- Jaber
Structure & Reactivity Alkanes – Molecules w/o functional Groups Hydrocarbons –Alkanes, Alkenes, Alkynes. Functional Groups; Aromatics –Polar bonds create.

Structure & Reactivity Alkanes – Molecules w/o functional Groups Hydrocarbons –Alkanes, Alkenes, Alkynes. Functional Groups; Aromatics –Polar bonds create.
Reactions in Solution The most important substance on earth is water. In chemistry, water is necessary for many reactions to take place. Table salt (NaCl)

Reactions in Solution The most important substance on earth is water. In chemistry, water is necessary for many reactions to take place. Table salt (NaCl)

Similar presentations

Ads by Google