Amr Hessein Hassan Physics and Materials science
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I have a PhD in Materials science and engineering with strong background in Electrical engineering.
I am ready to teach topics related materials science and Engineering in addition to physics for high school students and university students in both Arabic and English.
I am ready to teach and help with assignments on the following topics:
• Foundation Physics for Engineers
• Thermodynamics and Heat Transfer
• Mechanical Waves and Sound
• Laser and Advanced Engineering Optics
• Electrostatics and Electrodynamics
• Solid State Physics
• Physics of Semiconductor Devices
• Solar Energy and photovoltaics
• Quantum Theory of Solids
• Optical Properties of materials
• Nano-materials and Nanotechnology
• Printed and Flexible Electronics
• Electrochemical Energy Storage
• Organic Electronics
• Materials Characterization
• Spectroscopy

Subjects

Physics Beginner-Expert
Materials Science Beginner-Expert
Semiconductor Physics Beginner-Expert
Materials Characterisation Techniques Beginner-Expert
Photovoltaics (Solar Cells) Beginner-Expert

Experience

No experience mentioned.

Education

PhD (Sep, 2013–Sep, 2016) from Egypt-Japan University of Science and Technology (E-JUST)–scored 3.8
M.Sc. (Sep, 2010–Jan, 2013) from Benha university Cairo–scored 3.8
B.Sc (Sep, 2001–Sep, 2006) from Benha university Cairo–scored 3.85

Fee details

£1,000–2,000/hour (US$19.10–38.20/hour)

The fee variation is based on the course difficulty level

Courses offered

Flexible and Printed Electronics
- US$500
- Duration: 2 Weeks
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Arabic
- Certificate provided: No
- Printing technologies
-Physics of electronic devices (Rigid and flexible)
- Chemistry of materials for printed electronics
- Electrical characterization of electronic devices
-Physicochemical measurements of materials
- Solar cells and LED
-organic solar cells
-Field Effect Transistors (FET, MOSFET, OFET, ...)
Supercapacitors
-Batteries
-Sensors and photodetectors
- Actuators
Semiconductor Physics
- US$500
- Duration: 1 Month
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Arabic
- Certificate provided: No
-The Crystal Structure of Solids
-Principles of Quantum Mechanics
-Introduction to the Quantum Theory
of Solids
-Allowed and Forbidden Energy Bands
-Electrical Conduction in Solids
-Density of States Function
-Statistical Mechanics and The Fermi–Dirac Probability Function
-Carrier Transport Phenomena: Carrier Drift and Carrier Diffusion
- The Hall Effect
-Carrier Generation and Recombination
-Characteristics of Excess Carriers and Continuity Equations
-Quasi-Fermi Energy Levels
-Excess Carrier Lifetime
Physics of Semiconductor Devices
- US$500
- Duration: 1 Month
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Arabic
- Certificate provided: No
• Allowed and Forbidden Energy Bands
• Electrical Conduction in Solids
• Density of States Function
• The Fermi–Dirac Probability Function
• Excess Carrier and Quasi-Fermi Energy Levels
• The pn Junction
• The pn Junction Diode
• Ohmic Contact
• Schottky Junction (Metal–Semiconductor Junction)
• Semiconductor–Semiconductor Heterojunction
• Bipolar Transistor
• MOSFET Transistor
• Solar Cells
• Photodetectors
• LED and Laser Diodes
Thin film Technology
- US$500
- Duration: 25 Hours
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Arabic
- Certificate provided: No
Thin film technology is a broad and fascinating course that involves the basic definitions of surface structure and the different deposition techniques of very thin layers of materials onto a substrate for various applications. The course also involves an elaborate explanation of advanced characterization tools used for the characterization of thin films' electronic properties.
Outlines:
• Physical Background: Electronic Energy Bands
• Crystallography in 3 Dimensions
• Crystallography in 2 Dimensions
• Ultra-High Vacuum
• Surface crystallographic Structure
• Surface Electronic Structure
• Low-energy electron microscopy (LEEM)
• Low-energy electron Diffraction (LEED)
• Scanning tunneling microscopy (STM)
• Atomic force microscopy (AFM)
• X-ray Photoelectron spectroscopy (XPS)
• Auger electron spectroscopy (AES)
• Angle-resolved photoelectron spectroscopy (ARPES)
• Physical vapor transport techniques
• Chemical vapor transport technique
Materials characterization course
- US$500
- Duration: 20 Hours
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Arabic
- Certificate provided: No
A materials characterization course is designed to provide students with the knowledge and skills necessary to analyze and understand the properties of materials. These courses are essential for anyone working in fields such as materials science, engineering, physics, chemistry, and manufacturing.
Outlines:
• Optical microscopy
• Scanning electron microscopy (SEM)
• Transmission electron microscopy (TEM)
• X-ray diffraction (XRD)
• Optical UV-visible Spectroscopy
• Fourier Transform Infrared Spectroscopy (FTIR)
• Energy-dispersive X-ray spectroscopy (EDS)
• X-ray photoelectron spectroscopy (XPS)
• Atomic force microscopy (AFM)
• Differential scanning calorimetry (DSC)
• Thermogravimetric analysis (TGA)
• Electronic Characterization Techniques: I-V, C-V, Hall effect
• Deep-Level Transient Spectroscopy (DLTS)
• Electron Beam-Induced Current (EBIC)
• Scanning tunneling microscopy (STM)