CHEM-ENG590E:Wiki Textbook: Difference between revisions
From OpenWetWare
Jump to navigationJump to search
No edit summary |
|||
(424 intermediate revisions by more than 100 users not shown) | |||
Line 6: | Line 6: | ||
==Introduction - The Benefits of Scale== | ==Introduction - The Benefits of Scale== | ||
* [[ | * [[The Benefits of Small Length Scales in Microscale Systems - Telvin Abariga]] | ||
* [[Laminar Flow - Elizabeth Swanson]] | * [[Laminar_Flow_-_Marco_Zaky_Elizabeth_Swanson_and_Jay_Mistri| Laminar Flow - Marco Zaky, Elizabeth Swanson and Jay Mistri]] | ||
* [[Reynolds Number - Blayne Sarazin]] | * [[Stokes Flow - Samrat Sur]] | ||
* [[Reynolds Number (Re) - Blayne Sarazin]] | |||
* [[Péclet number (Pe) - Nishanth Saldanha]] | * [[Péclet number (Pe) - Nishanth Saldanha]] | ||
* [[Capillary Number (Ca) - Christopher Sparages]] | |||
==Chapter 1 - Microfabrication== | ==Chapter 1 - Microfabrication== | ||
* [[Wet Etching - Eric Ying]] | * [[Photolithography - Oscar Zabala, Yalin Liu]] | ||
** [[Positve-Tone vs Negative-Tone Photoresist - Hanna Naquines]] | |||
** [[Fast Lithographic Activation of Sheets (FLASH) - Louis Colaruotolo]] | |||
* [[Spin_Coating_-_Yizhuo_Chen | Spin Coating - Yizhuo Chen]] | |||
* Etching | |||
** [[Wet Etching - Eric Ying]] | |||
** [[Dry Etching - Kevin Lang]] | |||
* [[Bonding Surface - Xi Hao | Bonding Surfaces - Xi Hao]] | |||
* [[Nanoimprint Lithography (NIL) - Carter Paul]] | |||
==Chapter 2 - Soft Lithography== | ==Chapter 2 - Soft Lithography== | ||
* [[Replica molding (REM) - Adam Selsman|Replica Molding (REM) - Adam Selsman]] | |||
* [[CHEM-ENG590E_Wiki_Textbook:Microcontact_Printing|Microcontact Printing (μCP) - Andrew Blair and Declan Dean]] | |||
* [[Microtransfer_Molding_-_Marissa_Burgess,_Ruptanu_Banerjee,_Vaishali_Malik| Microtransfer Molding (μTM) - Marissa Burgess, Ruptanu Banerjee, Vaishali Malik]] | |||
* [[Hot_Embossing_-_Sylwia_Madro | Hot Embossing - Sylwia Madro]] | |||
* [[Particle_Replication_in_Non-Wetting_Templates_-_Anh_Nguyen,_Gaerin_McGregor|Particle Replication in Non-Wetting Templates (PRINT) - Anh Nguyen, Gaerin McGregor]] | |||
* [[Solvent Assisted Micromolding (SAMIM) - Stanley Chen]] | |||
* [[Micromolding in Capillaries (MIMIC) - Wen-Wei Wong]] | |||
* [[Flow Patterning - Eric Rice and Wesley Thompson]] | * [[Flow Patterning - Eric Rice and Wesley Thompson]] | ||
==Chapter 3 - 3D Printing== | ==Chapter 3 - 3D Printing== | ||
[[ 3D | * [[3D Printing Overview | 3D Printing Overview - Joe Biju Joseph and Paige Liu]] | ||
** [[Types of 3D Printing | Types of 3D Printing - Mitchell Culler, Helen Hua, Elizabeth Lin, Joe Biju Joseph, Hanna Scher]] | |||
** [[Common 3D Printing Materials | Common 3D Printing Materials - Joe Biju Joseph and Hanna Scher]] | |||
** [[Applications of 3D Printing | Applications of 3D Printing - Luke Ruksnaitis, Lilin Zhao, Rune Percy, Paige Liu, Joe Biju Joseph]] | |||
** [[3D_Printed_Microfluidic_Robots_-_Helen_Hua | 3D Printed Microfluidic Robots - Helen Hua]] | |||
==Chapter 4 - Flow Control and Mixing== | ==Chapter 4 - Flow Control and Mixing== | ||
* [[Surface Wetting - Jocelyn Yuen]] | * [[Asymmetries in Flow - Sara Koprek]] | ||
* [[Droplet Microfluidics: Merging Droplets- Sanket Sabnis]] | * [[Surface Wetting - Jocelyn Yuen, Chris Ortins]] | ||
* [[ | * [[Peristaltic Pumps - Sarah Duquette]] | ||
* [[Passive Mixing | * [[Stokes Trap- William McInerney|Stokes Trap - William McInerney]] | ||
* [[Surface Acoustic Waves (SAWs) - Matt Labbe]] | |||
* [[Diffusional Broadening - Nicholas Papianou]] | |||
* [[SIMPLE paper pumps - Raymond Pho]] | |||
* [[Capillaric Circuits]] - Phoebe Bisnoff | |||
* Droplet Microfluidics | |||
** [[Droplet Microfluidics: Merging Droplets- Sanket Sabnis | Merging Droplets- Sanket Sabnis]] | |||
** [[Droplet Microfluidics: T-Junction - Lina Wu | T-Junction - Lina Wu]] | |||
** [[Droplet Microfluidics: Emulsion Droplets - Wenyun Wang | Emulsion Droplets - Wenyun Wang]] | |||
** [[Droplet Microfluidics: Diluting Droplets - Andrew Beck | Diluting Droplets - Andrew Beck]] | |||
** [[Droplet Microfluidics: Recirculating Liquid Plugs in Droplets - Sam Marsden | Recirculating Liquid Plugs in Droplets - Sam Marsden]] | |||
** [[Droplet Microfluidics: Mixing within Droplets - Edward Esposito | Mixing within Droplets - Edward Esposito]] | |||
** [[Droplet Microfluidics: Synthesis of Janus Particles - Teresa Wang | Synthesis of Janus Particles - Teresa Wang]] | |||
* Electrophoretic Methods | |||
** [[Capillary Electrophoresis - Andrew Maloney, Tim Towner]] | |||
*Passive Mixing | |||
** [[Microfluidic_Gradient_Generators_-_Greg_Schneider | Microfluidic Gradient Generators - Greg Schneider]] | |||
** [[Taylor Dispersion - Diwakaran RP]] | |||
** [[Hydrodynamic_Focusing_-_Owen_O%27Connor,_Svilen_Kolev,_Lily_Perryclear and Jingqiao Shen| Hydrodynamic Focusing - Owen O'Connor, Svilen Kolev, Lily Perryclear and Jingqiao Shen]] | |||
** [[Herringbone Mixers - Jun-Goo Kwak]] | |||
*Active Mixing | |||
** [[Asymmetric Flow Patterns - Sara Bruni]] | |||
** [[Ring Mixers - Ricardo Valdes]] | |||
** [[Magnetic Mixing - Michael A. Beauregard]] | |||
** [[Active Mixing: Piezoelectrics - Ryan Thorpe|Piezoelectrics - Ryan Thorpe]] | |||
** [[Acoustic Micro-Mixing - Caleb Boucher]] | |||
**[[Acoustofluidic Mixing using Piezoelectronics - Jamar Hawkins]] | |||
==Chapter 5 - Valving== | ==Chapter 5 - Valving== | ||
* [[Microfluidic_Valves_-_Aditi_Naik,_Yiliang_Zhou | An Overview of Microfluidic Valves - Aditi Naik, Yiliang Zhou]] | |||
* [[Pneumatic Valves - Alex Brosseau, Anthony Brouillard]] | |||
* [[pH Sensitive Hydrogel Valves - Sydney Foster]] | |||
* [[Capillary Valves - Jeremy Allen, Joshua McGee]] | |||
** [[Electrowetting_Valves_-_Davis_Miller,_Sarthak_Saha | Electrowetting Valves - Davis Miller and Sarthak Saha]] | |||
** [[Hydrophobic Valves - Thomas Falcucci]] | |||
* [[Electrochemical Bubble Valve - Claudia Mokdad]] | |||
* [[Valve Multiplexing - Megha Shah]] | |||
* [[Electrically Activated Membrane Valves - Kaleb Seifert]] | |||
* [[Microfluidic | ==Chapter 6 - Separations== | ||
* [[ | * [[Diffusion Based Separation - Daniel Kallin]] | ||
* [[ | * Electrophoretic Methods | ||
* [[ | ** [[Electrophoresis|Electrophoresis - Avery Guan]] | ||
* [[ | ** [[Capillary Gel Electrophoresis|Capillary Gel Electrophoresis - Elvan Cavac]] | ||
** [[Micellar Electrokinetic Capillary Chromatography - Robin Levinson]] | |||
** [[Free Flow Electrophoresis - Jessica Belliveau]] | |||
** [[Dielectrophoresis - Kylee Klinkowski]] | |||
** [[Dielectrophoresis - Melissa Deschamps]] | |||
** [[Isotachopherisis - Bridget Stanford, Josh Paine, Nicholas Mancini]] | |||
* [[Gas Chromatography|Gas Chromatography - Cory Thomas]] | |||
* [[Distillation - Brandon Johnston]] | |||
* [[Inertial Focusing - Nick O'Hare]] | |||
* [[Brownian Ratchet/Deterministic Lateral Displacement - Matthew Tiller]] | |||
* [[FACS_-_Josh_Hall|Fluorescence-Activated Cell Sorting (FACS) - Josh Hall]] | |||
* [[Cell_sorting|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]] | |||
* [[Standing Waves - Tyler Kimball & Sean Corriveau]] | |||
* [[Paperfuge - Anson Staples & Ian Taylor]] | |||
==Chapter | ==Chapter 7 - Fiber-based Microfluidics== | ||
* [[Paper Microfluidics - Yiliang Zhou, Aditi Naik]] | * [[Paper Microfluidics - Yiliang Zhou, Aditi Naik]] | ||
* [[Paper_Microfluidic_Device_for_Archiving_Breast_Epithelial_Cells|Archiving Cells - Kaivon Ahmad, Andrew Mason, and Chelsea Orefice]] | * [[3D_Paper_Microfluidics_-_Peiyao_Zhao,_Adaline_Nuesse,_Lucas_Rozanski | 3D Paper Microfluidics - Peiyao Zhao, Adaline Nuesse, Lucas Rozanski]] | ||
*[[ | * [[Lateral Flow Assay - Gabrielle Berns, Alex Debreceni and Bryanne Zonghi]] | ||
* [[Paper_Microfluidic_Device_for_Archiving_Breast_Epithelial_Cells|Paper Microfluidic Device for Archiving Breast Epithelial Cells - Kaivon Ahmad, Andrew Mason, and Chelsea Orefice, Alex Debreceni Elizabeth Swanson]] | |||
* [[Yarn Microfluidics - Roger Dirth]] | |||
* [[Fabric Microfluidics - Ruolan Fan]] | |||
* [[Multilayer Paper Microfluidics - Madyson Redder]] | |||
==Chapter | ==Chapter 8 - Novel Materials for Microfluidics== | ||
* [[ | * [[Liquid Metal Enabled Microfluidics - Kashyap Sundara Rajan]] | ||
* [[ | * [[Lego Microfluidics - Kavya Ramachandran]] | ||
*[[ | * [[Jello Microfluidics - Duong Nguyen]] | ||
* [[ | * [[Shrinky Dink Microfluidics - Jennifer Boryczka]] | ||
*[[ | * [[Polyelectrolyte Complexes for Microfabrication - Falcucci, Foster, and Kallin]] | ||
*[[ | |||
* [[ | ==Chapter 9 - Microfluidics and Cell Culture== | ||
* [[ | *[[2D Mammalian Cell Culture - Min Zeng]] | ||
*[[3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, Adam Lyons and Jacob Belden]] | |||
**[[Preparation for Cell Culture - Alistaire Rauch and Abraham Waldman]] | |||
**[[Vascularization in Microfluidics - Daniel Bell and Anna Comperchio]] | |||
***[[Microfluidic Vasculature for Cell Culture - Evelyn Moore]] | |||
*[[Microfluidic Bacterial Analysis - Joshua Gukowsky]] | |||
**[[Measuring_Bacterial_Gene_Expression|Measuring Bacterial Gene Expression - Lucia C. Dalle Ore and Avery Guan]] | |||
* [[Body_on_a_Chip|Body on a Chip - Lucia C. Dalle Ore, Uday Prakhya, and Alexander Smith]] | * [[Body_on_a_Chip|Body on a Chip - Lucia C. Dalle Ore, Uday Prakhya, and Alexander Smith]] | ||
**[[Recreating_the_Tumor_Microenvironment|Recreating the Tumor Microenvironment - Drew Knudson, Adam Murphy, and Vishnu Raman]] | |||
**[[Macrofluidics_for_Tumor_Metastasis|"Macro"-fluidics for Tumor Metastasis - Jacob Kellett, Tina Leong, and Katelyn Mullen]] | |||
**[[Macrofluidics for Metastasis: Endothelial Cords|"Macro"-fluidics for Metastasis: Endothelial Cords - Marissa Burgess and Matthew Tiller]] | |||
**[[Macrofluidics for Metastasis: Carbohydrate Lattices| "Macro"-fluidics for Metastasis: Carbohydrate Lattices- Lilin Zhao and Melissa Deschamps]] | |||
**[[Organ-on-a-chip - Dan Nguyen]] | |||
**[[Combining Body on a Chip - Recreating the Tumor Microenvironment - Organ on a Chip - Michele Caggioni]] | |||
*[[Sperm Motility vs Chemical Stimuli|Sperm Motility vs Chemical Stimuli - Josh Hall, Peter Saldanha, Blayne Sarazin]] | |||
*[[Mechanobiology_and_Microscale_Devices_-_Neeraj,_Robert_Sterian,_Eugene_Cheong,_Luke_Boudreau | Mechanobiology and Microscale Devices - Neeraj, Robert Sterian, Eugene Cheong, Luke Boudreau]] | |||
*[[Cells and Nanoparticles in Flow - Namish Kokkula]] | |||
==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]] | |||
* [[Microfluidics for Studying Protein Folding Diseases - Priyanka Ghosh and Luke Ruksanaitis]] | |||
* [[Particle Surface Interactions in Flow - Jocelyn Yuen and Davis Miller]] | |||
* [[Foams In Microfluidic Devices - Elijah Taylor]] | |||
==Chapter 11 - Sensing== | |||
* [[Microfluidic Detection Methods- Diana Barr, Emma Abi-Younes, Xiao Fan, Jason Kim, Ryan Lodge, Nick Uvanovic, Xiaoyu Zhang | Microfluidic Detection Methods- Diana Barr, Emma Abi-Younes, Xiao Fan, Jason Kim, Ryan Lodge, Nick Uvanovic, Xiaoyu Zhang]] | |||
** [[Microfluidic Sensing- Nanomaterials based- Xiaoyu Zhang | Nanomaterials-Based Sensing - Xiaoyu Zhang]] | |||
** [[Microfluidic Sensing- Microfluidic Biosensors- Xiao Fan | Biosensors - Xiao Fan]] | |||
** [[Microfluidic Sensing- Microfluidic Sweat Sensors- Ryan Lodge | Sweat Sensors - Ryan Lodge]] | |||
** [[Microfluidic Sensing - Liquid Metal-Based Flexible Sensors - Emma Abi-Younes | Liquid Metal-Based Sensors - Emma Abi-Younes]] | |||
** [[Microfluidic Sensing- Liquid Metal Sensors - Jason Kim | Liquid Metal Sensors - Jason Kim]] | |||
==Chapter 12 - Introduction to Digital Microfluidics== | |||
* [[Digital Microfluidics - Eric Chia]] | |||
==Chapter 13 - Commercialized Microfluidics== | |||
* [[Commercialized Microfluidics - AIM Biotech - Jonathan Chen | AIM Biotech - Jonathan Chen]] | |||
* [[Emulate - Brendan Mulrooney]] | |||
* [[Commercialized Microfluidics - Fluidigm - Jashan Achpalia | Fluidigm - Jashan Achpalia]] | |||
==Chapter 14 - Microfluidics and Art== | |||
* [[Introduction and Background - Savannah Szemethy]] | |||
* [[Tips for Artistic Device Design and Fabrication - Savannah Szemethy]] | |||
* [[Microfluidic Art Portfolio - Savannah Szemethy]] | |||
==Chapter 15 - Other Topics== | |||
* [[Microfluidics vs. Microgravity - Kat. Nilov and Jad Haddad]] | |||
* [["Pick and Place" Assembly of Parts Using PDMS - Amy Lim, Rylie Costello]] | |||
* [[Microfluidic_Fuel_Cells_-_Md_Anisur_Rahman | Microfluidic Fuel Cells - Md Anisur Rahman]] | |||
* [[Microfluidics for DNA Sequencing - Khiem Le]] | |||
* [[Free-Boundary Microfluidics - Robert Keane]] | |||
* [[The paper that launched microfluidics - Xi Ning]] | |||
</div> | </div> |
Latest revision as of 09:24, 22 April 2024
Wiki Textbook
Place an internal link to your created page under the appropriate heading.
Introduction - The Benefits of Scale
- The Benefits of Small Length Scales in Microscale Systems - Telvin Abariga
- 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 (Ca) - Christopher Sparages
Chapter 1 - Microfabrication
- Photolithography - Oscar Zabala, Yalin Liu
- Spin Coating - Yizhuo Chen
- Etching
- Bonding Surfaces - Xi Hao
- Nanoimprint Lithography (NIL) - Carter Paul
Chapter 2 - Soft Lithography
- Replica Molding (REM) - Adam Selsman
- Microcontact Printing (μCP) - Andrew Blair and Declan Dean
- Microtransfer Molding (μTM) - Marissa Burgess, Ruptanu Banerjee, Vaishali Malik
- Hot Embossing - Sylwia Madro
- Particle Replication in Non-Wetting Templates (PRINT) - Anh Nguyen, Gaerin McGregor
- Solvent Assisted Micromolding (SAMIM) - Stanley Chen
- Micromolding in Capillaries (MIMIC) - Wen-Wei Wong
- Flow Patterning - Eric Rice and Wesley Thompson
Chapter 3 - 3D Printing
Chapter 4 - Flow Control and Mixing
- Asymmetries in Flow - Sara Koprek
- Surface Wetting - Jocelyn Yuen, Chris Ortins
- Peristaltic Pumps - Sarah Duquette
- Stokes Trap - William McInerney
- Surface Acoustic Waves (SAWs) - Matt Labbe
- Diffusional Broadening - Nicholas Papianou
- SIMPLE paper pumps - Raymond Pho
- Capillaric Circuits - Phoebe Bisnoff
- Droplet Microfluidics
- Electrophoretic Methods
- Passive Mixing
- Active Mixing
Chapter 5 - Valving
- An Overview of Microfluidic Valves - Aditi Naik, Yiliang Zhou
- Pneumatic Valves - Alex Brosseau, Anthony Brouillard
- pH Sensitive Hydrogel Valves - Sydney Foster
- Capillary Valves - Jeremy Allen, Joshua McGee
- Electrochemical Bubble Valve - Claudia Mokdad
- Valve Multiplexing - Megha Shah
- Electrically Activated Membrane Valves - Kaleb Seifert
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 - Kylee Klinkowski
- Dielectrophoresis - Melissa Deschamps
- Isotachopherisis - Bridget Stanford, Josh Paine, Nicholas Mancini
- Gas Chromatography - Cory Thomas
- Distillation - Brandon Johnston
- Inertial Focusing - Nick O'Hare
- Brownian Ratchet/Deterministic Lateral Displacement - Matthew Tiller
- Fluorescence-Activated Cell Sorting (FACS) - Josh Hall
- 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
- Standing Waves - Tyler Kimball & Sean Corriveau
- Paperfuge - Anson Staples & Ian Taylor
Chapter 7 - Fiber-based Microfluidics
- Paper Microfluidics - Yiliang Zhou, Aditi Naik
- 3D Paper Microfluidics - Peiyao Zhao, Adaline Nuesse, Lucas Rozanski
- Lateral Flow Assay - Gabrielle Berns, Alex Debreceni and Bryanne Zonghi
- Paper Microfluidic Device for Archiving Breast Epithelial Cells - Kaivon Ahmad, Andrew Mason, and Chelsea Orefice, Alex Debreceni Elizabeth Swanson
- Yarn Microfluidics - Roger Dirth
- Fabric Microfluidics - Ruolan Fan
- Multilayer Paper Microfluidics - Madyson Redder
Chapter 8 - Novel Materials for Microfluidics
- Liquid Metal Enabled Microfluidics - Kashyap Sundara Rajan
- Lego Microfluidics - Kavya Ramachandran
- Jello Microfluidics - Duong Nguyen
- Shrinky Dink Microfluidics - Jennifer Boryczka
- Polyelectrolyte Complexes for Microfabrication - Falcucci, Foster, and Kallin
Chapter 9 - Microfluidics and Cell Culture
- 2D Mammalian Cell Culture - Min Zeng
- 3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, Adam Lyons and Jacob Belden
- 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
- Organ-on-a-chip - Dan Nguyen
- Combining Body on a Chip - Recreating the Tumor Microenvironment - Organ on a Chip - Michele Caggioni
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
- Microfluidics for Studying Protein Folding Diseases - Priyanka Ghosh and Luke Ruksanaitis
- Particle Surface Interactions in Flow - Jocelyn Yuen and Davis Miller
- Foams In Microfluidic Devices - Elijah Taylor
Chapter 11 - Sensing
Chapter 12 - Introduction to Digital Microfluidics
Chapter 13 - Commercialized Microfluidics
Chapter 14 - Microfluidics and Art
- Introduction and Background - Savannah Szemethy
- Tips for Artistic Device Design and Fabrication - Savannah Szemethy
- Microfluidic Art Portfolio - Savannah Szemethy
Chapter 15 - Other Topics
- Microfluidics vs. Microgravity - Kat. Nilov and Jad Haddad
- "Pick and Place" Assembly of Parts Using PDMS - Amy Lim, Rylie Costello
- Microfluidic Fuel Cells - Md Anisur Rahman
- Microfluidics for DNA Sequencing - Khiem Le
- Free-Boundary Microfluidics - Robert Keane
- The paper that launched microfluidics - Xi Ning