References:
Chapter 1:
2018 Physics Nobel Prize What are Optical Tweezers
Automatic Manipulation of Cells Inside Microfluidic Chamber Assisted by Optical Tweezers
Combo Glucometer Non-Invasive Measurement
Continuous Lysis of Cells Using Acoustic & Optoelectronic Tweezing (Acoustic Tweezer)
Dario™ Glucose Monitoring System
Engineering Human Organs onto a Microchip
Film Clip of The Life of Pi_The Whale
Microscopy Optical Traps Measuring Steps by Molecular Motors
Non-Invasive Optical Blood Glucose Monitoring System
Optical Tweezers and 2018 Nobel Prize in Physics
Optoelectronic Tweezer for Particle Separation in Microfluidics
Scientists Develop Artificial Organs-on-Chip
Single Cell Manipulation by Acoustic Tweezers
Stem Cell Orchestra_Building a Cardiac Patch
What is the Blood Brain Barrier
Chapter 2:
Capillary Flow
Digital Microfluidics_Electrowetting Droplet Operations
Electrowetting Digital Microfludics with Feedback Drive
Laplace Pressure
The Electrowetting Display
The Second Official Ultra-Ever Dry Video
Top View of On-Chip Dispensing of Droplets through Electrowetting
Lab-On-A-Chip
Chapter 3:
[Wikipedia] Protein Microarray
Aptamers a New Class of Oligonucleotides for Therapeutic and Diagnostic Use
ELISA Tutorial 1_How a Direct, Indirect and Sandwich ELISA Works
ELISA
Immunofluorescence
Introduction to Aptamer
Introduction to Immunofluorescence Part 1
Protein Microarray Interaction Assay
Why Use Aptamers
Chapter 4:
The Cycle of Polymerase Chain Reaction (3D Animation)
DNA Microarray Fabrication
Oxford Nanopore Technologies
NMSU Professor Testing Miniaturized Genome Sequencer
Digital PCR Using the Bio-Rad QX100™ ddPCR™ System
Jorge Soto at TEDx2014
