SlideShare una empresa de Scribd logo

Computational Organic Chemistry

Descargar como PPT, PDF
Isamu Katsuyama
Isamu Katsuyama
1 de 50
A Review on Computational Organic Chemistry: Basic Concepts and Applications ,[object Object]
Contents ,[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],Calculations are now performed by not only computational chemists but also experimental chemists.
[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Differences Between Molecular Mechanics and Quantum Methods ,[object Object],[object Object]
Differences Between Molecular Mechanics and Quantum Methods (Cont.)‏ ,[object Object],[object Object]
Differences Between Molecular Mechanics and Quantum Methods (Cont.)‏ ,[object Object]
Range of Molecular Mechanics and Quantum Methods Method Range (heavy atoms)‏ Molecular Mechanics > 1000 Semi-Empirical < 200 Ab initio Hartree-Fock(HF) < 50 Ab initio Correlated < 20 Density Functional (DFT) < 100
Relative Computation Times Methylcyclohexane (C 7 H 14 )‏ 14 2 pBP/DN* ( DFT )‏ .06 8 54 - f 1 7 100 AM1 ( Semi-Empirical )‏ HF/3-21G ( Ab initio )‏ HF/6-31G* ( Ab initio )‏ MP2/6-31G* ( Ab initio Correlated )‏ f f MMFF94 ( MM )‏ Geometry Optimization Single-Point Energy Level of Calculation
Comparison of the Performance of Molecular Mechanics( MM ) and Quantum Methods( QM ) S= satisfactory; U= unsatisfactory Task     MM Semi- Ab initio DFT     Empirical HF Correlated Geometry S S S S S Transition-state -   S S S S Geometry Conformation S U S S S Thermochemistry -    U S S S
[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object]
Widely Used Software Packages for MM , QM ,[object Object],[object Object],[object Object],[object Object],[object Object],Each software has different user interface, operating feature, price, manual and so on .
[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],[object Object],Dihedral angle 0  90  180 
Relation between Dihedral Angle and Relative Conformer Energy in 1,3-Butadiene s- trans s- cis twisted Order of stability: s- trans > s- cis > twisted
[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Advantage and Disadvantage of X-ray and CD Method ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]
Advantages and Disadvantages of Total Synthesis ,[object Object],[object Object],[object Object],[object Object],[object Object]
Advantages and Disadvantages of NMR (2D-NMR, 1D-NMR with Chiral Derivatizing Agents )‏ ,[object Object],[object Object],[object Object],[object Object],[object Object]
Advantages and Disadvantages of Computational Chemistry ,[object Object],[object Object],[object Object],[object Object],[object Object]
Determination of Absolute Configuration in A Macrocyclic System by a Combination of Computational Chemistry and Another Method
The distance between H-2 and H-13 is 4.0 Å in 13( R )configuration . This is not consistent with information based on NOESY.
The distance between H-2 and H-13 is 2.4 Å in 13( S )configuration. This is consistent with information based on NOESY.
CD Spectrum Negative Cotton Effect - CD also supports 13( S )configuration.
[object Object],[object Object],[object Object],[object Object],[object Object],[object Object],Investigation of Basicity (Proton Affinity) , Acidity , and More…
4-Aminopyridine: Where is the Basic Site ? ,[object Object], H(A) = 193.6,  H(B) = 169.1 kcal/mol B is more stable than A , and thus the ring N is more basic.
[object Object],The ring N is more negatively charged , and thus is likely to be more basic. Colors near red represent more negative charge , while colors near blue represent more positive charge.
Imidazole: Where is the Basic Site ? The N-3 is negatively charged , and thus is the basic site . Electrostatic Potential Map
Acidities of Alcohols stronger stronger weaker weaker 15.5 Methanol 15.9 Ethanol 7.2 4-Nitrophenol 10.0 Phenol 12.4 2,2,2-Trifluoroethanol pKa’s (acidities)‏
Electrostatic Potential (ESP) Map for the Alcohols ,[object Object],[object Object]
[object Object],[object Object],[object Object],Examination of frontier molecular orbital ( HOMO and LUMO ) is an important method because most chemical reactions involve electron movement between them .
References of Frontier Molecular Orbital (FMO) Theory and Reaction ,[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],[object Object],Examination of FMO Energies
Acrolein/BF 3 : What is the role of Lewis Acids ? ,[object Object]
[object Object],[object Object]
[object Object],[object Object],[object Object],Examination of FMO Shape (Value)‏
Ester Enolate: Where is the reactive site ? ,[object Object],The ester enolate has two possible sites, which may react with electrophiles ; the anion and the terminal carbon .
HOMO of the Enolate HOMO Map of the Enolate The color near red indicates minimum value, and the color near blue indicates maximum value of HOMO. The terminal carbon,where HOMO shape (value) is larger , generally reacts with electrophile .
Electrophilic Substitution of Indole; What should be favorite position for electrophilic attack ? ,[object Object]
Stereochemistry of Nucleophilic Additions to Carbonyl Compounds Cyclohexanones has two possible faces, which may undergo nucleophilic attack; the axial and the equatorial face. ,[object Object]
Nucleophilic Additions to Dioxanone Ring LUMO map for the axial face LUMO map for the equatorial face Nucleophililes preferentially attack from the axial face.
Nucleophilic Additions to Dithianone Ring LUMO map for the axial face LUMO map for the equatorial face Nucleophililes preferentially attack from the equatorial face.
[object Object],[object Object],[object Object],The development of several methods is in progress for the calculation in solution.
[object Object],[object Object],[object Object],[object Object],[object Object]
[object Object],[object Object],They have recently begun to be widely applied in not only organic chemistry but also biochemistry and closely related fields such as drug design . Explosive developments in computer hardware and software
[object Object],[object Object],[object Object],[object Object],Quantum chemical calculations ( QM ) are expected to become an important method for drug design in the future.

Recomendados

Applications of Computational Quantum Chemistry
Applications of Computational Quantum ChemistryApplications of Computational Quantum Chemistry
Applications of Computational Quantum Chemistry
University of Kerbala, Faculty of Science, Department of Chemistry
 
COMPUTATIONAL CHEMISTRY
COMPUTATIONAL CHEMISTRY COMPUTATIONAL CHEMISTRY
COMPUTATIONAL CHEMISTRY
Komal Rajgire
 
Computational chemistry
Computational chemistryComputational chemistry
Computational chemistry
MattSmith321834
 
Computational Chemistry: From Theory to Practice
Computational Chemistry: From Theory to PracticeComputational Chemistry: From Theory to Practice
Computational Chemistry: From Theory to Practice
David Thompson
 
Ab initio md
Ab initio mdAb initio md
Ab initio md
yudhaarman
 
Advantages and applications of computational chemistry
Advantages and applications of computational chemistryAdvantages and applications of computational chemistry
Advantages and applications of computational chemistry
manikanthaTumarada
 
Computational Chemistry- An Introduction
Computational Chemistry- An IntroductionComputational Chemistry- An Introduction
Computational Chemistry- An Introduction
Anjali Devi J S
 
Molecular and Quantum Mechanics in drug design
Molecular and Quantum Mechanics in drug designMolecular and Quantum Mechanics in drug design
Molecular and Quantum Mechanics in drug design
Ajay Kumar
 

Recomendados

Applications of Computational Quantum Chemistry
Applications of Computational Quantum ChemistryApplications of Computational Quantum Chemistry
Applications of Computational Quantum Chemistry
University of Kerbala, Faculty of Science, Department of Chemistry
 
COMPUTATIONAL CHEMISTRY
COMPUTATIONAL CHEMISTRY COMPUTATIONAL CHEMISTRY
COMPUTATIONAL CHEMISTRY
Komal Rajgire
 
Computational chemistry
Computational chemistryComputational chemistry
Computational chemistry
MattSmith321834
 
Computational Chemistry: From Theory to Practice
Computational Chemistry: From Theory to PracticeComputational Chemistry: From Theory to Practice
Computational Chemistry: From Theory to Practice
David Thompson
 
Ab initio md
Ab initio mdAb initio md
Ab initio md
yudhaarman
 
Advantages and applications of computational chemistry
Advantages and applications of computational chemistryAdvantages and applications of computational chemistry
Advantages and applications of computational chemistry
manikanthaTumarada
 
Computational Chemistry- An Introduction
Computational Chemistry- An IntroductionComputational Chemistry- An Introduction
Computational Chemistry- An Introduction
Anjali Devi J S
 
Molecular and Quantum Mechanics in drug design
Molecular and Quantum Mechanics in drug designMolecular and Quantum Mechanics in drug design
Molecular and Quantum Mechanics in drug design
Ajay Kumar
 
7.local and global minima
7.local and global minima7.local and global minima
7.local and global minima
Abhijeet Kadam
 
Quantum Mechanics in Molecular modeling
Quantum Mechanics in Molecular modelingQuantum Mechanics in Molecular modeling
Quantum Mechanics in Molecular modeling
Akshay Kank
 
molecular mechanics and quantum mechnics
molecular mechanics and quantum mechnicsmolecular mechanics and quantum mechnics
molecular mechanics and quantum mechnics
RAKESH JAGTAP
 
Molecular mechanics and dynamics
Molecular mechanics and dynamicsMolecular mechanics and dynamics
Molecular mechanics and dynamics
Ateos Foundation of Science Education and Research, Pune, M.S., India
 
Quantum Chemistry II
Quantum Chemistry IIQuantum Chemistry II
Quantum Chemistry II
baoilleach
 
Computational Chemistry Workshop Presentation (Final, revised)
Computational Chemistry Workshop Presentation (Final, revised)Computational Chemistry Workshop Presentation (Final, revised)
Computational Chemistry Workshop Presentation (Final, revised)
CarlosJCabello
 
Molecular Mechanics in Molecular Modeling
Molecular Mechanics in Molecular ModelingMolecular Mechanics in Molecular Modeling
Molecular Mechanics in Molecular Modeling
Akshay Kank
 
Advanced Molecular Dynamics 2016
Advanced Molecular Dynamics 2016Advanced Molecular Dynamics 2016
Advanced Molecular Dynamics 2016
Bioinformatics and Computational Biosciences Branch
 
Supramolecular host and guest design ppt
Supramolecular host and guest design pptSupramolecular host and guest design ppt
Supramolecular host and guest design ppt
Afrina Jasy
 
Gaussian software
Gaussian softwareGaussian software
Gaussian software
university of education,Lahore
 
Molecular modelling and docking studies
Molecular modelling and docking studiesMolecular modelling and docking studies
Molecular modelling and docking studies
routhusree
 
Molecular mechanics
Molecular mechanicsMolecular mechanics
Molecular mechanics
Savita Deshmukh
 
Molecular maodeling and drug design
Molecular maodeling and drug designMolecular maodeling and drug design
Molecular maodeling and drug design
Mahendra G S
 
Energy minimization
Energy minimizationEnergy minimization
Energy minimization
Shikha Popali
 
Anand's presentation
Anand's presentationAnand's presentation
Anand's presentation
ANAND PARKASH
 
Molecular Dynamic: Basics
Molecular Dynamic: BasicsMolecular Dynamic: Basics
Molecular Dynamic: Basics
Ajay Murali
 
Density Functional Theory
Density Functional TheoryDensity Functional Theory
Density Functional Theory
krishslide
 
GC-MS and GC-AAS Hyphenated Techniques.pptx
GC-MS and GC-AAS Hyphenated Techniques.pptxGC-MS and GC-AAS Hyphenated Techniques.pptx
GC-MS and GC-AAS Hyphenated Techniques.pptx
SamikshaBobde
 
Molecular modelling for M.Pharm according to PCI syllabus
Molecular modelling for M.Pharm according to PCI syllabusMolecular modelling for M.Pharm according to PCI syllabus
Molecular modelling for M.Pharm according to PCI syllabus
Shikha Popali
 
Microwave assisted synthesis
Microwave assisted synthesisMicrowave assisted synthesis
Microwave assisted synthesis
burhanmadri
 
Molecular modelling
Molecular modelling Molecular modelling
Molecular modelling
Pharmaceutical
 
Quantum pharmacology. Basics
Quantum pharmacology. BasicsQuantum pharmacology. Basics
Quantum pharmacology. Basics
Mobiliuz
 

Más contenido relacionado

La actualidad más candente

Supramolecular host and guest design ppt
Supramolecular host and guest design pptSupramolecular host and guest design ppt
Supramolecular host and guest design ppt
Afrina Jasy
 

La actualidad más candente (20)

7.local and global minima
7.local and global minima7.local and global minima
7.local and global minima
 
Quantum Mechanics in Molecular modeling
Quantum Mechanics in Molecular modelingQuantum Mechanics in Molecular modeling
Quantum Mechanics in Molecular modeling
 
molecular mechanics and quantum mechnics
molecular mechanics and quantum mechnicsmolecular mechanics and quantum mechnics
molecular mechanics and quantum mechnics
 
Molecular mechanics and dynamics
Molecular mechanics and dynamicsMolecular mechanics and dynamics
Molecular mechanics and dynamics
 
Quantum Chemistry II
Quantum Chemistry IIQuantum Chemistry II
Quantum Chemistry II
 
Computational Chemistry Workshop Presentation (Final, revised)
Computational Chemistry Workshop Presentation (Final, revised)Computational Chemistry Workshop Presentation (Final, revised)
Computational Chemistry Workshop Presentation (Final, revised)
 
Molecular Mechanics in Molecular Modeling
Molecular Mechanics in Molecular ModelingMolecular Mechanics in Molecular Modeling
Molecular Mechanics in Molecular Modeling
 
Advanced Molecular Dynamics 2016
Advanced Molecular Dynamics 2016Advanced Molecular Dynamics 2016
Advanced Molecular Dynamics 2016
 
Supramolecular host and guest design ppt
Supramolecular host and guest design pptSupramolecular host and guest design ppt
Supramolecular host and guest design ppt
 
Gaussian software
Gaussian softwareGaussian software
Gaussian software
 
Molecular modelling and docking studies
Molecular modelling and docking studiesMolecular modelling and docking studies
Molecular modelling and docking studies
 
Molecular mechanics
Molecular mechanicsMolecular mechanics
Molecular mechanics
 
Molecular maodeling and drug design
Molecular maodeling and drug designMolecular maodeling and drug design
Molecular maodeling and drug design
 
Energy minimization
Energy minimizationEnergy minimization
Energy minimization
 
Anand's presentation
Anand's presentationAnand's presentation
Anand's presentation
 
Molecular Dynamic: Basics
Molecular Dynamic: BasicsMolecular Dynamic: Basics
Molecular Dynamic: Basics
 
Density Functional Theory
Density Functional TheoryDensity Functional Theory
Density Functional Theory
 
GC-MS and GC-AAS Hyphenated Techniques.pptx
GC-MS and GC-AAS Hyphenated Techniques.pptxGC-MS and GC-AAS Hyphenated Techniques.pptx
GC-MS and GC-AAS Hyphenated Techniques.pptx
 
Molecular modelling for M.Pharm according to PCI syllabus
Molecular modelling for M.Pharm according to PCI syllabusMolecular modelling for M.Pharm according to PCI syllabus
Molecular modelling for M.Pharm according to PCI syllabus
 
Microwave assisted synthesis
Microwave assisted synthesisMicrowave assisted synthesis
Microwave assisted synthesis
 

Similar a Computational Organic Chemistry

Quantum pharmacology. Basics
Quantum pharmacology. BasicsQuantum pharmacology. Basics
Quantum pharmacology. Basics
Mobiliuz
 
IJET-V2I6P16
IJET-V2I6P16IJET-V2I6P16
IJET-V2I6P16
IJET - International Journal of Engineering and Techniques
 
Overview combining ab initio with continuum theory
Overview combining ab initio with continuum theoryOverview combining ab initio with continuum theory
Overview combining ab initio with continuum theory
Dierk Raabe
 
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
ManavBhugun3
 
Main_Ms_JBNMR_Final_version
Main_Ms_JBNMR_Final_versionMain_Ms_JBNMR_Final_version
Main_Ms_JBNMR_Final_version
Abhilash Kannan
 

Similar a Computational Organic Chemistry (20)

Molecular modelling
Molecular modelling Molecular modelling
Molecular modelling
 
Quantum pharmacology. Basics
Quantum pharmacology. BasicsQuantum pharmacology. Basics
Quantum pharmacology. Basics
 
IJET-V2I6P16
IJET-V2I6P16IJET-V2I6P16
IJET-V2I6P16
 
Computational methodologies
Computational methodologiesComputational methodologies
Computational methodologies
 
Molecular modeling in drug design
Molecular modeling in drug designMolecular modeling in drug design
Molecular modeling in drug design
 
Thereoticical chemistry with gaussian and orca
Thereoticical chemistry with gaussian and orcaThereoticical chemistry with gaussian and orca
Thereoticical chemistry with gaussian and orca
 
Theoritical chemistry for_catalysis
Theoritical chemistry for_catalysisTheoritical chemistry for_catalysis
Theoritical chemistry for_catalysis
 
computationalchemistry_12-6.ppt
computationalchemistry_12-6.pptcomputationalchemistry_12-6.ppt
computationalchemistry_12-6.ppt
 
Electronic assessment of a hindred reaction mechanism
Electronic assessment of a hindred reaction mechanismElectronic assessment of a hindred reaction mechanism
Electronic assessment of a hindred reaction mechanism
 
Overview combining ab initio with continuum theory
Overview combining ab initio with continuum theoryOverview combining ab initio with continuum theory
Overview combining ab initio with continuum theory
 
computational pnnnnnnnnnnnnnnnnnnnnnnnnnnnnnpt.pptx
computational pnnnnnnnnnnnnnnnnnnnnnnnnnnnnnpt.pptxcomputational pnnnnnnnnnnnnnnnnnnnnnnnnnnnnnpt.pptx
computational pnnnnnnnnnnnnnnnnnnnnnnnnnnnnnpt.pptx
 
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
Lecture_No._2_Computational_Chemistry_Tools___Application_of_computational_me...
 
59 330-l2-ms1
59 330-l2-ms159 330-l2-ms1
59 330-l2-ms1
 
A guide to molecular mechanics and quantum chemical calculations
A guide to molecular mechanics and quantum chemical calculationsA guide to molecular mechanics and quantum chemical calculations
A guide to molecular mechanics and quantum chemical calculations
 
MD Simulation
MD SimulationMD Simulation
MD Simulation
 
Research_Proposal
Research_ProposalResearch_Proposal
Research_Proposal
 
How to use data to design and optimize reaction? A quick introduction to work...
How to use data to design and optimize reaction? A quick introduction to work...How to use data to design and optimize reaction? A quick introduction to work...
How to use data to design and optimize reaction? A quick introduction to work...
 
Multi scale modeling of micro-coronas
Multi scale modeling of micro-coronasMulti scale modeling of micro-coronas
Multi scale modeling of micro-coronas
 
Main_Ms_JBNMR_Final_version
Main_Ms_JBNMR_Final_versionMain_Ms_JBNMR_Final_version
Main_Ms_JBNMR_Final_version
 
skoog_-_principles_of_instrumental_analysis__2nd_ed__1980.pdf
skoog_-_principles_of_instrumental_analysis__2nd_ed__1980.pdfskoog_-_principles_of_instrumental_analysis__2nd_ed__1980.pdf
skoog_-_principles_of_instrumental_analysis__2nd_ed__1980.pdf
 

Más de Isamu Katsuyama

Más de Isamu Katsuyama (10)

文献紹介20180525
文献紹介20180525文献紹介20180525
文献紹介20180525
 
A Study of Deuterium-Labeled Compounds Part-Ⅱ
A Study of Deuterium-Labeled Compounds Part-ⅡA Study of Deuterium-Labeled Compounds Part-Ⅱ
A Study of Deuterium-Labeled Compounds Part-Ⅱ
 
代表的な還元剤 Typical reducing agents
代表的な還元剤 Typical reducing agents代表的な還元剤 Typical reducing agents
代表的な還元剤 Typical reducing agents
 
Deuterium-labeled compounds
Deuterium-labeled compoundsDeuterium-labeled compounds
Deuterium-labeled compounds
 
勉強会記録リスト
勉強会記録リスト勉強会記録リスト
勉強会記録リスト
 
勉強会資料; 科学英語の基礎
勉強会資料; 科学英語の基礎勉強会資料; 科学英語の基礎
勉強会資料; 科学英語の基礎
 
甘酒の雑学
甘酒の雑学甘酒の雑学
甘酒の雑学
 
Active oxygen
Active oxygenActive oxygen
Active oxygen
 
A New Class of Metal-containing Catalyst
A New Class of Metal-containing CatalystA New Class of Metal-containing Catalyst
A New Class of Metal-containing Catalyst
 
Microwave-Promoted Amide Formation
Microwave-Promoted Amide FormationMicrowave-Promoted Amide Formation
Microwave-Promoted Amide Formation
 

Computational Organic Chemistry

  • 1.
  • 2.
  • 3.
  • 4.
  • 5.
  • 6.
  • 7.
  • 8.
  • 9.
  • 10.
  • 11. Range of Molecular Mechanics and Quantum Methods Method Range (heavy atoms)‏ Molecular Mechanics > 1000 Semi-Empirical < 200 Ab initio Hartree-Fock(HF) < 50 Ab initio Correlated < 20 Density Functional (DFT) < 100
  • 12. Relative Computation Times Methylcyclohexane (C 7 H 14 )‏ 14 2 pBP/DN* ( DFT )‏ .06 8 54 - f 1 7 100 AM1 ( Semi-Empirical )‏ HF/3-21G ( Ab initio )‏ HF/6-31G* ( Ab initio )‏ MP2/6-31G* ( Ab initio Correlated )‏ f f MMFF94 ( MM )‏ Geometry Optimization Single-Point Energy Level of Calculation
  • 13. Comparison of the Performance of Molecular Mechanics( MM ) and Quantum Methods( QM ) S= satisfactory; U= unsatisfactory Task     MM Semi- Ab initio DFT     Empirical HF Correlated Geometry S S S S S Transition-state -   S S S S Geometry Conformation S U S S S Thermochemistry -    U S S S
  • 14.
  • 15.
  • 16.
  • 17.
  • 18.
  • 19. Relation between Dihedral Angle and Relative Conformer Energy in 1,3-Butadiene s- trans s- cis twisted Order of stability: s- trans > s- cis > twisted
  • 20.
  • 21.
  • 22.
  • 23.
  • 24.
  • 25. Determination of Absolute Configuration in A Macrocyclic System by a Combination of Computational Chemistry and Another Method
  • 26. The distance between H-2 and H-13 is 4.0 Å in 13( R )configuration . This is not consistent with information based on NOESY.
  • 27. The distance between H-2 and H-13 is 2.4 Å in 13( S )configuration. This is consistent with information based on NOESY.
  • 28. CD Spectrum Negative Cotton Effect - CD also supports 13( S )configuration.
  • 29.
  • 30.
  • 31.
  • 32. Imidazole: Where is the Basic Site ? The N-3 is negatively charged , and thus is the basic site . Electrostatic Potential Map
  • 33. Acidities of Alcohols stronger stronger weaker weaker 15.5 Methanol 15.9 Ethanol 7.2 4-Nitrophenol 10.0 Phenol 12.4 2,2,2-Trifluoroethanol pKa’s (acidities)‏
  • 34.
  • 35.
  • 36.
  • 37.
  • 38.
  • 39.
  • 40.
  • 41.
  • 42. HOMO of the Enolate HOMO Map of the Enolate The color near red indicates minimum value, and the color near blue indicates maximum value of HOMO. The terminal carbon,where HOMO shape (value) is larger , generally reacts with electrophile .
  • 43.
  • 44.
  • 45. Nucleophilic Additions to Dioxanone Ring LUMO map for the axial face LUMO map for the equatorial face Nucleophililes preferentially attack from the axial face.
  • 46. Nucleophilic Additions to Dithianone Ring LUMO map for the axial face LUMO map for the equatorial face Nucleophililes preferentially attack from the equatorial face.
  • 47.
  • 48.
  • 49.
  • 50.

Notas del editor

  1. Thank you Dr. XYZ for your kind introduction. It is my pleasure to speak to you my seminar “A Review on Computational Organic Chemistry: Basic Concepts and Applications”. I am not computational chemist, but today I would like to introduce usefulness of computational chemistry.
  2. QM can calculate ……… These futures are applied for investigation of…..
  3. dark blue