Physics of silicon solar cells

Course Feature

Cost

Free
Provider

Coursera
Certificate

No Information
Language

English
Start Date

Self Paced
Learners

No Information
Duration

No Information
Instructor

/

Add to Favorites

4.1

2,000 Ratings

This MOOC provides an introduction to the physics of silicon solar cells, exploring the principles of operation and the main parameters that define their performance. This course offers an overview of the physics of silicon solar cells, including the principles of operation and the key parameters that determine their efficiency. Participants will gain a better understanding of the technology and its potential applications.

Show All

Go to class

Course Overview

❗The content presented here is sourced directly from Coursera platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [March 06th, 2023]

This course provides an introduction to the physics of silicon solar cells. It begins with an overview of semiconductor physics, followed by a discussion of electron transport phenomena in a diode device. The course then delves into the details of solar cell operation, including conversion efficiency limitations. The solar spectrum and optical properties of the cells are also explored. Finally, the crystalline silicon technology is described, from the bulk crystalline growth to the preparation of heterojunctions combining crystalline and amorphous materials.

[Applications]
The application of this course can be seen in the design and optimization of silicon solar cells. Students can use the knowledge gained from this course to understand the physical principles behind the operation of solar cells and to develop strategies to improve their efficiency. Additionally, the course can be used to gain insight into the optical properties of solar cells and the effects of the solar spectrum on their performance. Finally, the course can be used to gain an understanding of the crystalline silicon technology and the fabrication of heterojunctions.

[Career Paths]
1. Solar Cell Engineer: Solar Cell Engineers are responsible for designing, developing, and testing solar cells and related components. They must have a strong understanding of semiconductor physics and the ability to work with a variety of materials. As the demand for renewable energy sources increases, the need for Solar Cell Engineers is expected to grow.

2. Solar Energy Technician: Solar Energy Technicians are responsible for installing, maintaining, and repairing solar energy systems. They must have a strong understanding of electrical systems and be able to work with a variety of tools and equipment. As the demand for renewable energy sources increases, the need for Solar Energy Technicians is expected to grow.

3. Solar Energy Consultant: Solar Energy Consultants are responsible for providing advice and guidance to clients on the best solar energy solutions for their needs. They must have a strong understanding of the solar energy industry and be able to provide accurate and up-to-date information. As the demand for renewable energy sources increases, the need for Solar Energy Consultants is expected to grow.

4. Solar Energy Researcher: Solar Energy Researchers are responsible for conducting research on solar energy technologies and applications. They must have a strong understanding of the physics of solar energy and be able to develop new technologies and applications. As the demand for renewable energy sources increases, the need for Solar Energy Researchers is expected to grow.

[Education Paths]
1. Bachelor of Science in Physics: This degree program provides students with a comprehensive understanding of the fundamental principles of physics, including mechanics, electricity and magnetism, thermodynamics, optics, and quantum mechanics. Students will also gain an understanding of the application of physics to the development of new technologies, such as solar cells.

2. Master of Science in Photovoltaics: This degree program focuses on the study of photovoltaic systems, including the design, fabrication, and testing of solar cells. Students will gain an understanding of the physics of solar cells, as well as the materials and processes used to create them.

3. Doctor of Philosophy in Photovoltaics: This degree program provides students with an advanced understanding of the physics of solar cells, as well as the materials and processes used to create them. Students will also gain an understanding of the development of new technologies, such as the use of nanomaterials and nanostructures in solar cells.

4. Master of Science in Nanotechnology: This degree program focuses on the study of nanotechnology, including the design, fabrication, and testing of nanomaterials and nanostructures. Students will gain an understanding of the physics of nanomaterials and nanostructures, as well as the materials and processes used to create them. This degree program is becoming increasingly popular as nanotechnology is being used to create more efficient solar cells.

Show All

Pros & Cons

Very informative
Good depth into the physics element of photovoltaics
Very useful course
Course materials are very interesting
Great course for those who want to start their career in Solar energy engineering
Very Good to understand basics

Bernard's accent is difficult to understand
No French version available
No subtitles in French

Show All

Recommended Courses

Piano Lessons For Absolute Beginners

4.5

Udemy 108,109 learners

Learn More

This absolute beginners course is the perfect introduction to piano music. It takes you from the very beginning and teaches you how to play the piano from scratch. You will learn to play the piano keyboard and music staff, as well as basic scales and chords. With this course, you will be able to impress your friends and family with beautiful and entertaining piano music. You will also have the foundation to take things further and become a professional player. Enroll now and learn how to play the piano quickly and easily!

Piano Grooves

4.2

Udemy 20,787 learners

Learn More

This Piano Grooves course is designed to help musicians of all skill levels. It will teach you how to play a few songs with nice progressions and patterns, and how to implement the information learned into your own personal musical style. You will learn how to play a few nice piano grooves, songs in different keys, and broaden your chord vocabulary. Enjoy and download full tutorials to take your playing ability to the next level. Remember, as Proverbs 27:17 says, "Iron sharpens iron." Take this course and sharpen your musical skills today!

Learn Piano Basics in 7 Days For Complete Beginners

4.6

Udemy 15,460 learners

Learn More

This 7-Day Piano Programme is the perfect way for complete beginners to learn the basics of playing the piano. With daily bite-sized lessons, detailed video tutorials and practical examples, users will be able to learn music notation, playing skills and even their first song - Beethoven's iconic Ode to Joy! Plus, they will also learn 3 easy songs - Simple Gift, Greensleeves and Country Dance. So why wait? Start your journey to becoming a piano master today!

How to Play Piano - Your First Lesson!

4.8

Udemy 24,636 learners

Learn More

This course is perfect for anyone who has always wanted to learn how to play the piano but wasn't sure if they wanted to commit to private lessons or an expensive course. In this course, you will learn how to purchase your first keyboard, the 12 unique notes that make up the 88 keys of the piano, how the piano is spaced out, how it relates to other instruments, and how it relates to singers. By the end of this course, the piano will make a lot more sense and you will be able to play your first song! So don't wait any longer, join this course and start your journey to becoming a piano master!