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Wikipedia Resources
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Questions? Ask us:
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![]() | This course page is an automatically-updated version of the main course page at dashboard.wikiedu.org. Please do not edit this page directly; any changes will be overwritten the next time the main course page gets updated. |
The purpose of this course is to introduce students to basic electronic structure theory from a chemical perspective and to show students the modern trends in research surrounding inorganic materials in the bulk and on the nanometer scale. The course is divided into two halves with the first five weeks focusing in detail on band theory and the second five weeks presenting a survey - style discussion of inorganic materials, their electronic structure, and their applications in energy and related technologies.
By the end of this course students should have a working understanding of the free electron model and the linear combination of atomic orbital model in so far as they relate to band theory and be able to construct simple band diagrams of 1D systems and 2D square nets. By the end of this course, students should understand the origin of band gaps and bandwidths and their implications in the electronic properties of materials. By the end of this course, students should be able to extract the basic properties of real materials from their band diagrams. By the end of this course, students should understand the basic perturbations to simple band theory, including lattice distortions, electron repulsion, and defects. By the end of this class, students should be able to use the particle in a box model and the hydrogenic model to compute properties of materials including (for example) impurity ionization energies and exciton energies and radii. By the end of this course, students should have an appreciation for the most relevant inorganic materials and their applications including (for example) graphene, silicon, gallium arsenide, metal oxides, perovskites, metal nanoparticles, and quantum dots.
The Wikipedia assignment will entail students creating new content or editing stub pages that are relevant to the topics covered in the course, as detailed above, and this project will be done either in teams or individually.
Welcome to your Wikipedia assignment's course timeline. This page guides you through the steps you'll need to complete for your Wikipedia assignment, with links to training modules and your classmates' work spaces.
Your course has been assigned a Wikipedia Expert. You can reach them through the Get Help button at the top of this page.
Resources:
Create an account and join this course page, using the enrollment link your instructor sent you. (Because of Wikipedia's technical restraints, you may receive a message that you cannot create an account. To resolve this, please try again off campus or the next day.)
This week, everyone should have a Wikipedia account.
Resource: Editing Wikipedia, pages 7–9
Everyone has begun writing their article drafts.
Every student has finished reviewing their assigned articles, making sure that every article has been reviewed.
You probably have some feedback from other students and possibly other Wikipedians. Consider their suggestions, decide whether it makes your work more accurate and complete, and edit your draft to make those changes.
Resources:
Now that you've improved your draft based on others' feedback, it's time to move your work live - to the "mainspace."
Resource: Editing Wikipedia, page 13
Now's the time to revisit your text and refine your work. You may do more research and find missing information; rewrite the lead section to represent all major points; reorganize the text to communicate the information better; or add images and other media.
Continue to expand and improve your work, and format your article to match Wikipedia's tone and standards. Remember to contact your Wikipedia Expert at any time if you need further help!
It's the final week to develop your article.
Instructions here: https://docs.google.com/spreadsheets/d/13opGzAhaBHayjYUjLMDAfpU1JeC4UM87wY0ErYcYy9k/edit#gid=0
Everyone should have finished all of the work they'll do on Wikipedia, and be ready for grading.
This Course
|
Wikipedia Resources
|
Connect
Questions? Ask us:
contact |
![]() | This course page is an automatically-updated version of the main course page at dashboard.wikiedu.org. Please do not edit this page directly; any changes will be overwritten the next time the main course page gets updated. |
The purpose of this course is to introduce students to basic electronic structure theory from a chemical perspective and to show students the modern trends in research surrounding inorganic materials in the bulk and on the nanometer scale. The course is divided into two halves with the first five weeks focusing in detail on band theory and the second five weeks presenting a survey - style discussion of inorganic materials, their electronic structure, and their applications in energy and related technologies.
By the end of this course students should have a working understanding of the free electron model and the linear combination of atomic orbital model in so far as they relate to band theory and be able to construct simple band diagrams of 1D systems and 2D square nets. By the end of this course, students should understand the origin of band gaps and bandwidths and their implications in the electronic properties of materials. By the end of this course, students should be able to extract the basic properties of real materials from their band diagrams. By the end of this course, students should understand the basic perturbations to simple band theory, including lattice distortions, electron repulsion, and defects. By the end of this class, students should be able to use the particle in a box model and the hydrogenic model to compute properties of materials including (for example) impurity ionization energies and exciton energies and radii. By the end of this course, students should have an appreciation for the most relevant inorganic materials and their applications including (for example) graphene, silicon, gallium arsenide, metal oxides, perovskites, metal nanoparticles, and quantum dots.
The Wikipedia assignment will entail students creating new content or editing stub pages that are relevant to the topics covered in the course, as detailed above, and this project will be done either in teams or individually.
Welcome to your Wikipedia assignment's course timeline. This page guides you through the steps you'll need to complete for your Wikipedia assignment, with links to training modules and your classmates' work spaces.
Your course has been assigned a Wikipedia Expert. You can reach them through the Get Help button at the top of this page.
Resources:
Create an account and join this course page, using the enrollment link your instructor sent you. (Because of Wikipedia's technical restraints, you may receive a message that you cannot create an account. To resolve this, please try again off campus or the next day.)
This week, everyone should have a Wikipedia account.
Resource: Editing Wikipedia, pages 7–9
Everyone has begun writing their article drafts.
Every student has finished reviewing their assigned articles, making sure that every article has been reviewed.
You probably have some feedback from other students and possibly other Wikipedians. Consider their suggestions, decide whether it makes your work more accurate and complete, and edit your draft to make those changes.
Resources:
Now that you've improved your draft based on others' feedback, it's time to move your work live - to the "mainspace."
Resource: Editing Wikipedia, page 13
Now's the time to revisit your text and refine your work. You may do more research and find missing information; rewrite the lead section to represent all major points; reorganize the text to communicate the information better; or add images and other media.
Continue to expand and improve your work, and format your article to match Wikipedia's tone and standards. Remember to contact your Wikipedia Expert at any time if you need further help!
It's the final week to develop your article.
Instructions here: https://docs.google.com/spreadsheets/d/13opGzAhaBHayjYUjLMDAfpU1JeC4UM87wY0ErYcYy9k/edit#gid=0
Everyone should have finished all of the work they'll do on Wikipedia, and be ready for grading.