Difference between revisions of "WebMO Electrostatic Potential maps"
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Using WebMO/Gaussian please complete the following table by optimizing the geometry based the stated level of theory and basis set: | Using WebMO/Gaussian please complete the following table by optimizing the geometry based the stated level of theory and basis set: | ||
| − | + | ==Activity 1: Generating an Electrostatic Potential Map for Benzene (C<sub>6</sub>H<sub>6</sub>)== | |
'''Note: this calculation is a 2-step process: | '''Note: this calculation is a 2-step process: | ||
| Line 22: | Line 22: | ||
:2) Calculate Molecular Orbitals. | :2) Calculate Molecular Orbitals. | ||
| + | ===Step 1: Optimize Geometry for Benzene=== | ||
:- Click “New Job”, then “Create New Job”. The Build Molecule window opens, | :- Click “New Job”, then “Create New Job”. The Build Molecule window opens, | ||
:- Build C<sub>6</sub>H<sub>6</sub> using the "fragments: | :- Build C<sub>6</sub>H<sub>6</sub> using the "fragments: | ||
| − | :::... from the menu bar, select Build: Fragments | + | :::... from the menu bar, select Build: Fragments, then |
:::- Category: --> Rings | :::- Category: --> Rings | ||
:::- Fragment: --> Benzene | :::- Fragment: --> Benzene | ||
| Line 33: | Line 34: | ||
:- Click the blue “continue” arrow in the lower right side of the Build Molecule window. | :- Click the blue “continue” arrow in the lower right side of the Build Molecule window. | ||
| − | ::: | + | :- Setup the job as |
| − | :- | + | ::- Name: C6H6 (should be this already) |
| − | ::: | + | ::- Calculation: Geometry Optimization |
| − | :- Once the job is complete, click on the hyperlinked name to open the “View Job” window. | + | ::- Theory: Hartree-Fock |
| + | ::- Basic Set: Routine: 6-31(G)d | ||
| + | ::- Charge: 0 | ||
| + | ::- Multiplicity: Singlet | ||
| + | :- Click the blue “continue” arrow to submit the job. | ||
| + | |||
| + | ===Step 2: Calculate Molecular Orbitals for Benzene=== | ||
| + | :- Once the job is complete, click on the hyperlinked name, C6H6 to open the “View Job” window. | ||
:- Click the "New Job Using This Geometry" button at the bottom of the window, then click the blue “continue” arrow, | :- Click the "New Job Using This Geometry" button at the bottom of the window, then click the blue “continue” arrow, | ||
| − | :- Setup the job | + | :- Setup the job: |
| − | ::: | + | ::- Name: C6H6 (should be this already) |
| − | : - Once the job is complete, click on the hyperlinked name to | + | ::- Calculation: Molecular Orbital |
| − | :- Scroll down to the Molecular Orbitals table. | + | ::- Theory: Hartree-Fock |
| + | ::- Basic Set: Routine: 6-31(G)d | ||
| + | ::- Charge: 0 | ||
| + | ::- Multiplicity: Singlet | ||
| + | :- Click the blue “continue” arrow to submit the job. | ||
| + | |||
| + | : - Once the job is complete, click on the "molecular orbital" hyperlinked name to view the “View Job” window. | ||
| + | :- Scroll down to the Molecular Orbitals table and look at the bottom: | ||
| + | :[[File:Screen Shot 2020-04-23 at 8.39.16 AM.png|400px]] | ||
| + | ...and click the magnifying glass across from the "Electrostatic Potential" label...this will bring your view back to the top and after a short calculation time, the window will display the electrostatic potential map. Note the positive (blue), negative (red), and neutral (yellow/green) areas. | ||
| + | |||
| + | ===Start your...''Report on Electrostatic Potential Map Calculations'' (more below)=== | ||
| + | For this lab activity, i am requesting that you prepare a short report...'''''due on Tuesday, April 28th, at 5 pm.''''' | ||
| + | |||
| + | When viewing the electrostatic potential (EP) map, you can save this graphic as a PNG file that can be inserted into WORD. | ||
| + | ::- When the EP map is displayed, select File: Save Image --> PNG (portable network graphic)... | ||
| + | ::- Insert this image into a WORD file and save for later additions. | ||
| + | |||
| + | ==Activity 2: Generating an Electrostatic Potential Map for substituted Benzenes== | ||
| + | As [http://esr.monmsci.net/wiki/index.php/File:Screen_Shot_2020-04-23_at_8.20.30_AM.png discussed previously], substitutions on the benzene ring can be activating or deactivating towards electrophilic aromatic substitution. | ||
| + | ::- Activating groups (electron donating) --> weakly (alkyl, -CH<sub>3</sub>), moderately (alkoxyl, -OCH<sub>3</sub>, hydroxy, -OH), and strongly (-O<sup>-</sup>). | ||
| + | ::- Deactivating groups (electron withdrawing)--> weakly (halo, -F, -Cl), moderately (carbonyl, -COR), and strongly (nitro, -NO<sub>2</sub>). | ||
| + | |||
| + | Please generate an electrostatic potential map for the following compounds: | ||
| + | ::# benzene (done) | ||
| + | ::# toluene/methylbenzene | ||
| + | ::# anisole/methoxybenzene | ||
| + | ::# phenol/hydroxybenzene | ||
| + | ::# fluorobenzene | ||
| + | ::# benzoic acid/carboxybenzene | ||
| + | ::# nitrobenzene | ||
| + | |||
| + | Remember: these calculations are a 2-step process: | ||
| + | :1) Optimize Geometry, then, | ||
| + | :2) Calculate Molecular Orbitals. | ||
| + | |||
| + | ==Report on Electrostatic Potential Map Calculations== | ||
| + | For this lab activity, i am requesting that you prepare a short report...'''''due on Tuesday, April 28th, at 5 pm.''''' (extensions allowed for good reasons) | ||
| + | |||
| + | When viewing the electrostatic potential (EP) map, you can save this graphic as a PNG file that can be inserted into WORD. | ||
| + | ::- When the EP map is displayed, select File: Save Image --> PNG (portable network graphic)... | ||
| + | ::- Insert this image into a WORD file. | ||
| + | |||
| + | Report requirements: | ||
| + | :# NAME/CLASS/DATE | ||
| + | :# INTRODUCTION: a short paragraph related to why we are doing these calculations. | ||
| + | :# METHODS: discuss the software used and the details (theory, basis sets,etc) of the calculations. (You do NOT need to do a step by step description of WebMO/Gaussian) | ||
| + | :# RESULTS: present electrostatic potential maps from calculations. | ||
| + | :# DISCUSSION: interpret the results EP maps in terms of the introductory information. | ||
| + | :# CONCLUSION...if needed, not required | ||
| + | :# REFERENCES...if needed, not required | ||
Latest revision as of 17:05, 23 April 2020
(4/23/20, bes)
Exercise 5: Electrostatic Potential Maps
Electrostatic potential maps show the electron distribution (ie. the composite wavefunction for all electrons) within a molecular frame. Did you get that ? <--these pictures are a visual representation of the composite electron wavefunctions.
The figure below shows an example of the electrostatic potential maps for LiH, H2, and HF.
- H2, the electrons are evenly distributed among the two H-atoms (green = neutral),
- LiH, being an ionic compound, the 1s valence electron is transferred to the H-atom showing a Li+/positive charge (blue - on left) and an H-/negative charge (red - on right),
- HF, being a covalent bond with the highly electronegative F-atom showing showing a H+/positive charge (blue - on left) and F-/negative charge (red - on right).
Note: these maps are "surface" maps...electrostatic potential surface maps...and represent what the electron distribution looks like from a external perspective.
Using WebMO/Gaussian please complete the following table by optimizing the geometry based the stated level of theory and basis set:
Activity 1: Generating an Electrostatic Potential Map for Benzene (C6H6)
Note: this calculation is a 2-step process:
- 1) Optimize Geometry, then,
- 2) Calculate Molecular Orbitals.
Step 1: Optimize Geometry for Benzene
- - Click “New Job”, then “Create New Job”. The Build Molecule window opens,
- - Build C6H6 using the "fragments:
- ... from the menu bar, select Build: Fragments, then
- - Category: --> Rings
- - Fragment: --> Benzene
- - OK
- ...then a single click in the drawing area will generate a benzene ring.
- - Choose Clean-Up > Comprehensive – Mechanics,
- - Symmetrize the molecule...(click "red" D6h* <-- 10th item down in left side menu),
- - Click the blue “continue” arrow in the lower right side of the Build Molecule window.
- - Setup the job as
- - Name: C6H6 (should be this already)
- - Calculation: Geometry Optimization
- - Theory: Hartree-Fock
- - Basic Set: Routine: 6-31(G)d
- - Charge: 0
- - Multiplicity: Singlet
- - Click the blue “continue” arrow to submit the job.
Step 2: Calculate Molecular Orbitals for Benzene
- - Once the job is complete, click on the hyperlinked name, C6H6 to open the “View Job” window.
- - Click the "New Job Using This Geometry" button at the bottom of the window, then click the blue “continue” arrow,
- - Setup the job:
- - Name: C6H6 (should be this already)
- - Calculation: Molecular Orbital
- - Theory: Hartree-Fock
- - Basic Set: Routine: 6-31(G)d
- - Charge: 0
- - Multiplicity: Singlet
- - Click the blue “continue” arrow to submit the job.
- - Once the job is complete, click on the "molecular orbital" hyperlinked name to view the “View Job” window.
- - Scroll down to the Molecular Orbitals table and look at the bottom:
...and click the magnifying glass across from the "Electrostatic Potential" label...this will bring your view back to the top and after a short calculation time, the window will display the electrostatic potential map. Note the positive (blue), negative (red), and neutral (yellow/green) areas.
Start your...Report on Electrostatic Potential Map Calculations (more below)
For this lab activity, i am requesting that you prepare a short report...due on Tuesday, April 28th, at 5 pm.
When viewing the electrostatic potential (EP) map, you can save this graphic as a PNG file that can be inserted into WORD.
- - When the EP map is displayed, select File: Save Image --> PNG (portable network graphic)...
- - Insert this image into a WORD file and save for later additions.
Activity 2: Generating an Electrostatic Potential Map for substituted Benzenes
As discussed previously, substitutions on the benzene ring can be activating or deactivating towards electrophilic aromatic substitution.
- - Activating groups (electron donating) --> weakly (alkyl, -CH3), moderately (alkoxyl, -OCH3, hydroxy, -OH), and strongly (-O-).
- - Deactivating groups (electron withdrawing)--> weakly (halo, -F, -Cl), moderately (carbonyl, -COR), and strongly (nitro, -NO2).
Please generate an electrostatic potential map for the following compounds:
- benzene (done)
- toluene/methylbenzene
- anisole/methoxybenzene
- phenol/hydroxybenzene
- fluorobenzene
- benzoic acid/carboxybenzene
- nitrobenzene
Remember: these calculations are a 2-step process:
- 1) Optimize Geometry, then,
- 2) Calculate Molecular Orbitals.
Report on Electrostatic Potential Map Calculations
For this lab activity, i am requesting that you prepare a short report...due on Tuesday, April 28th, at 5 pm. (extensions allowed for good reasons)
When viewing the electrostatic potential (EP) map, you can save this graphic as a PNG file that can be inserted into WORD.
- - When the EP map is displayed, select File: Save Image --> PNG (portable network graphic)...
- - Insert this image into a WORD file.
Report requirements:
- NAME/CLASS/DATE
- INTRODUCTION: a short paragraph related to why we are doing these calculations.
- METHODS: discuss the software used and the details (theory, basis sets,etc) of the calculations. (You do NOT need to do a step by step description of WebMO/Gaussian)
- RESULTS: present electrostatic potential maps from calculations.
- DISCUSSION: interpret the results EP maps in terms of the introductory information.
- CONCLUSION...if needed, not required
- REFERENCES...if needed, not required