Nanodevices Intro to Biomedical Engineering

RAHBME282 – Become an expert in Nanodevices & improve your Biomedical skills-Rahsoft Biomedical Engineering Certificate
Nanodevices Intro to Biomedical Engineering
File Size :
3.02 GB
Total length :
11h 16m

Instructor

Rahsoft Biomedical Engineering Courses

Language

Last update

Last updated 7/2022

Ratings

4.5/5

Nanodevices Intro to Biomedical Engineering

What you’ll learn

Silicon & Introduction to MEMS
Microfabrication
Scaling Law
Microfluidics
Electro kinetics
DNA Sequencing
Electrical Transducers
Fluorescence
Optical Transducers
Light Scattering
Mechanical Transducers
Nano biosensors

Nanodevices Intro to Biomedical Engineering

Requirements

Willingness to learn
Introduction to Biomedical Engineering RAHBME101

Description

Welcome to the Nanodevices course, brought to you by Rahsoft. In this course we will be going over the basics and fundamentals of nanodevices and nanosensors, as well as in-depth examples and practice problems to give you a better understanding of the field. The course is taught by Dennis Fer, a Biomedical Engineering Instructor at Rahsoft, and the course advisor is Ahsan Ghoncheh, the Co-Founder and Technical Advisor at Rahsoft.We will be presenting this information to you in a way that is simple and easy to understand! Our course is aimed for engineers, science students, and others who are interested in learning more about biomaterials, and how different materials work in various techniques and phenomena in order to sense, observe, and determine various nanoscale topics within the field of biomedical engineering. Throughout the course, you will be given examples, practice problems and quizzes in order to not only allow you expand your knowledge on the material covered, but also to test what you learned in a way that is stress-free and effective!The course will begin with some basics in nanodevices, followed by more in-depth technical aspects on how nanodevices are created, as well as specific tools and methods used. We will then look over some of the main transduction methods, such as electrical, optical, and mechanical transduction. Lastly, we will go in-depth on nanodevice biosensors, as well as some potential future applications.I want to thank you for choosing Rahsoft to teach you over this subject, and we will do everything we can to meet your needs and go further beyond. We are excited to help teach you more about the field of Nanodevices, and help you learn more and achieve your goals. If you have any questions, please feel free to contact us and we’ll be happy to help! Hope to see you soon, when you decide to take the course.

Overview

Section 1: Introduction to Nanodevices

Lecture 1 Introduction to the Course

Lecture 2 Before we start

Lecture 3 Background Knowledge

Lecture 4 Types of Sensors

Lecture 5 Sensor Structures

Lecture 6 Sensor Performance

Lecture 7 Quiz Review

Lecture 8 Quiz Recap

Section 2: Silicon & Introduction to MEMS

Lecture 9 Introduction to MEMS

Lecture 10 Microscale Properties

Lecture 11 Silicon & Microfabrication

Lecture 12 Miller Indices Example

Lecture 13 Dry Etching

Lecture 14 Applications of Silicon

Lecture 15 Quiz Review

Lecture 16 Quiz Recap

Section 3: Microfabrication

Lecture 17 Photoresists

Lecture 18 Clean Rooms

Lecture 19 Photolithography

Lecture 20 Photolithography Example Problem

Lecture 21 Thermal Oxidation

Lecture 22 Vapor Deposition

Lecture 23 Quiz Review

Lecture 24 Quiz Recap

Section 4: Scaling Law

Lecture 25 Introduction to Scaling Law

Lecture 26 Physical Quantities

Lecture 27 Scaling Law Examples

Lecture 28 Quiz Review

Lecture 29 Quiz Recap

Section 5: Microfluidics

Lecture 30 Microfluidic Basics

Lecture 31 Flow & Drag

Lecture 32 Example Problem

Lecture 33 Microchannel Separation

Lecture 34 Microchannel Mixing

Lecture 35 Microchannel Focusing & Stretching

Lecture 36 Soft Lithography

Lecture 37 Valves

Lecture 38 Valve Applications

Lecture 39 Quiz Review

Lecture 40 Quiz Recap

Section 6: Electro kinetics

Lecture 41 Electrical Forces in Microfluidics

Lecture 42 Electrophoresis

Lecture 43 Dielectrophoresis

Lecture 44 Surface Tension

Lecture 45 Electrowetting

Lecture 46 Contact Angle Practice Problem

Lecture 47 Electroosmosis

Lecture 48 Quiz Review

Lecture 49 Quiz Recap

Section 7: DNA Sequencing

Lecture 50 Types of Cells

Lecture 51 RT – qPCR

Lecture 52 DNA Sequencing

Lecture 53 Next-Generation Sequencing

Lecture 54 Quiz Review

Lecture 55 Quiz Recap

Section 8: Electrical Transducers

Lecture 56 Redox Reactions

Lecture 57 Nernst Equation

Lecture 58 Example Problem

Lecture 59 Electrochemical Sensors

Lecture 60 Basics of Semiconductors

Lecture 61 Doped Semiconductors

Lecture 62 P-N Diodes

Lecture 63 Transistors

Lecture 64 Quiz Review

Lecture 65 Quiz Recap

Section 9: Fluorescence

Lecture 66 Absorption Spectrum

Lecture 67 Beer Lambert Example Problem

Lecture 68 Fluorescence

Lecture 69 Fluorescence Properties

Lecture 70 Fluorophore Responses

Lecture 71 Fluorophore Energy Transfer

Lecture 72 Quiz Review

Lecture 73 Quiz Recap

Section 10: Optical Transducers

Lecture 74 Optical Transducers

Lecture 75 Interference & Reflection

Lecture 76 Brewster’s Angle & Evanescent Fields

Lecture 77 Waveguides

Lecture 78 Types of Waveguides

Lecture 79 Fluorescence Sensors

Lecture 80 Surface Plasmon Resonance

Lecture 81 Dispersion Curves

Lecture 82 Measuring Surface Plasmon Resonance

Lecture 83 Quiz Review

Lecture 84 Quiz Recap

Section 11: Light Scattering

Lecture 85 Light Scattering

Lecture 86 Localized SPR

Lecture 87 Dark Field Microscopy

Lecture 88 Dynamic Light Scattering

Lecture 89 Quiz Review

Lecture 90 Quiz Recap

Section 12: Mechanical Transducers

Lecture 91 Bio Barcodes

Lecture 92 Types of Bio Barcodes

Lecture 93 MEMS Cantilevers

Lecture 94 Cantilever Sensing

Lecture 95 Piezoelectric Effect

Lecture 96 Piezoelectric Sensors

Lecture 97 Quiz Review

Lecture 98 Quiz Recap

Section 13: Nano biosensors

Lecture 99 Biosensor Development

Lecture 100 Gold Nanoparticles

Lecture 101 Quantum Dots

Lecture 102 Gold Nanoparticle Issues

Lecture 103 Silicon Nanowires

Lecture 104 Carbon Nanotubes

Lecture 105 Drug Delivery

Lecture 106 Quiz Review

Lecture 107 Quiz Recap

Biomedical Engineers,Biomedical Students,medical students,Biomedical enthusiasts

Course Information:

Udemy | English | 11h 16m | 3.02 GB
Created by: Rahsoft Biomedical Engineering Courses

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