CHEM-ENG590E:Wiki Textbook

Wiki Textbook

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Introduction - The Benefits of Scale

• The Benefits of Small Length Scales in Microscale Systems - Kush Basu
• The Benefits of Small Length Scales in Microscale Systems - Duy Nguyen
• Laminar Flow - Marco Zaky, Elizabeth Swanson and Jay Mistri
• Stokes Flow - Samrat Sur
• Reynolds Number (Re) - Blayne Sarazin
• Péclet number (Pe) - Nishanth Saldanha
• Capillary Number - Christopher Sparages
• Microfluidic Art - Savannah Szemethy
• Microfluidic Sensing- Nick Uvanovic

Chapter 1 - Microfabrication

• Photolithography - Oscar Zabala, Yalin Liu
  • Positve-Tone vs Negative-Tone Photoresist - Hanna Naquines
  • Fast Lithographic Activation of Sheets (FLASH) - Louis Colaruotolo
• Etching
  • Wet Etching - Eric Ying
  • Dry Etching - Kevin Lang
• Bonding Surfaces - Xi Hao

Chapter 2 - Soft Lithography

• Replica molding (REM) - Adam Selsman
• Microcontact Printing (µCP) - Andrew Blair and Declan Dean
• Microtransfer Molding (µTM) - Marissa Burgess
• Particles Replication in Non-Wetting Templates - Anh Nguyen
• Solvent Assisted Micromolding (SAMIM) - Stanley Chen
• Paper Microfluidics - Yiliang Zhou, Aditi Naik
  • 3D Paper Microfluidics - Adaline Nuesse
• Flow Patterning - Eric Rice and Wesley Thompson
• Polyelectrolyte Complexes for Microfabrication - Falcucci, Foster, and Kallin

Chapter 3 - 3D Printing

• 3D printing - Luke Ruksnaitis, Lilin Zhao, Rune Percy
• 3D printing - Mitchell Culler, Helen Hua, Elizabeth Lin
• Updated and Merged 3D printing - Hanna Scher
  • Recent Advances - Paige Liu

Chapter 4 - Flow Control and Mixing

• Surface Wetting - Jocelyn Yuen, Chris Ortins
• Peristaltic pumps - Sarah Duquette
• Stokes Trap- William McInerney
• Surface Acoustic Waves (SAWs) - Matt Labbe
• Droplet Microfluidics
  • Droplet Microfluidics: Merging Droplets- Sanket Sabnis
  • Droplet Microfluidics: T-Junction - Lina Wu
  • Droplet Microfluidics: Diluting Droplets - Andrew Beck
  • Droplet Microfluidics: Synthesis of Janus Particles- Teresa Wang
  • Droplet Microfluidics: Emulsion Droplets- Wenyun Wang
• Electrophoretic Methods
  • Capillary Electrophoresis - Andrew Maloney, Tim Towner
  • Dielectrophoresis - Kylee Klinkowski
• Passive Mixing
  • Passive Mixing: Hydrodynamic Focusing - Owen O'Connor, Svilen Kolev
  • Herringbone Mixers - Jun-Goo Kwak
• Active Mixing
  • Ring Mixers - Ricardo Valdes
  • Magnetic Mixing - Michael A. Beauregard
  • Active Mixing: Piezoelectrics - Ryan Thorpe
  • Acoustic micro-mixing - Caleb Boucher
• Capillaric Circuits - Phoebe Bisnoff

Chapter 5 - Valving

• An Overview of Microfluidic Valves - Aditi Naik, Yiliang Zhou
• Pneumatic Valves - Alex Brosseau
• pH Sensitive Hydrogel Valves - Sydney Foster
• Capillary Valves - Jeremy Allen, Joshua McGee
  • Electrowetting Valves - Davis Miller
  • Hydrophobic Valves - Thomas Falcucci

Chapter 6 - Separations

• Diffusion Based Separation - Daniel Kallin
• Electrophoretic Methods
  • Electrophoresis - Avery Guan
  • Capillary Gel Electrophoresis - Elvan Cavac
  • Micellar Electrokinetic Capillary Chromatography - Robin Levinson
  • Free Flow Electrophoresis - Jessica Belliveau
  • Dielectrophoresis - Melissa Deschamps
• Gas Chromatography - Cory Thomas
• Distillation - Brandon Johnston
• Inertial Focusing - Nick O'Hare
• Fluorescence-Activated Cell Sorting (FACS) - Josh Hall
• Brownian Ratchet/Deterministic Lateral Displacement - Matthew Tiller
• Cell Sorting - Ashley Andrews and Cuiying Zhang
• Microfluidic Red Blood Cell Separation for Rapid Blood Testing - Rune Percy, Alex Smith
• Inertial Focusing for the Preferential Sorting of Tumor Spheroids - Owen O'Connor, Michael Beauregard, Uday Prakhya
• Liquid-Liquid Extraction in Microchemical Channels - Jacob Brandner
• Isotachopherisis - Bridget Stanford
• Standing Waves - Tyler Kimball

Chapter 7 - Paperfluidics

• Paper Microfluidics - Yiliang Zhou, Aditi Naik
• Lateral Flow Assays - Alex Debreceni
• Archiving Cells - Kaivon Ahmad, Andrew Mason, and Chelsea Orefice, Alex Debreceni Elizabeth Swanson
• Lateral Flow Assay - Gabrielle Berns and Bryanne Zonghi

Chapter 8 - Microfluidics and Cell Culture

• Body on a Chip - Lucia C. Dalle Ore, Uday Prakhya, and Alexander Smith
  • Recreating the Tumor Microenvironment- Drew Knudson, Adam Murphy, and Vishnu Raman
  • "Macro"-fluidics for Tumor Metastasis - Jacob Kellett, Tina Leong, and Katelyn Mullen
  • "Macro"-fluidics for Metastasis: Endothelial Cords - Marissa Burgess and Matthew Tiller
  • "Macro"-fluidics for Metastasis: Carbohydrate Lattices- Lilin Zhao and Melissa Deschamps

• Measuring Bacterial Gene Expression - Lucia C. Dalle Ore and Avery Guan

• Sperm Motility vs Chemical Stimuli - Josh Hall, Peter Saldanha, Blayne Sarazin
• Vascularization in Microfluidics with Soft Lithography Techniques- Anna Comperchio
• 3D Printing in the Vascularization of Microfluidics - Daniel Bell
• 2D Mammalian Cells Culture - Min Zeng

• Importance_of_3D_Cell_Culture - Maximilian Marek
• Spin coating for making microfluidic membrane - Yizhuo Chen

Chapter 9 - Microfluidics for Studying Protein Folding Diseases

• Microfluidics for Studying Protein Folding Diseases - Priyanka Ghosh and Luke Ruksanaitis

Chapter 10 - Microfluidics for High-Throughput Formulation and Testing

• Zeolite synthesis in a microfluidic device- Sanket Sabnis & Eric Ying
• Protein Crystallization in Microfluidics - Alex Brosseau, Cory Thomas, and Adam Selsman
• Particle Surface Interactions in Flow - Jocelyn Yuen and Davis Miller
• Liquid Metal Enabled Microfluidics - Kashyap Sundara Rajan
• Lego Microfluidics - Kavya Ramachandran