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MICROFLUIDICS

  • Microfluidics
  • Interdisciplinary science

    Examples of open microfluidics include open-channel microfluidics, rail-based microfluidics, paper-based, and thread-based microfluidics. Disadvantages

    Microfluidics

    Microfluidics

    Microfluidics

  • Droplet-based microfluidics
  • using droplet-based microfluidics was a flow-through chip reactor for miniaturized PCR . Interest in droplet-based microfluidics systems has been growing

    Droplet-based microfluidics

    Droplet-based_microfluidics

  • Open microfluidics
  • Microfluidics refers to the flow of fluid in channels or networks with at least one dimension on the micron scale. In open microfluidics, also referred

    Open microfluidics

    Open_microfluidics

  • Parafilm
  • Wrapping plastic often used in chemistry

    paper microfluidic devices utilizing Parafilm® « Chips and Tips". rsc.org. "A two-for-one dielectric and hydrophobic layer for digital microfluidics « Chips

    Parafilm

    Parafilm

    Parafilm

  • Digital microfluidics
  • built up step-by-step. And in contrast to continuous-flow microfluidics, digital microfluidics works much the same way as traditional bench-top protocols

    Digital microfluidics

    Digital microfluidics

    Digital_microfluidics

  • Sanger sequencing
  • Method of DNA sequencing developed in 1977

    of templates needed to sequence DNA contigs at a given redundancy. Microfluidics may allow for faster, cheaper and easier sequence assembly. Maxam–Gilbert

    Sanger sequencing

    Sanger sequencing

    Sanger_sequencing

  • Lab-on-a-chip
  • Device integrating laboratory functions on a integrated circuit

    S2CID 6178424. Berthier, J.; Silberzan, P. Microfluidics for Biotechnology. Gomez, F.A. Biological Applications of Microfluidics.[ISBN missing] "Acumen Research

    Lab-on-a-chip

    Lab-on-a-chip

  • Paper-based microfluidics
  • Paper-based microfluidics are microfluidic devices that consist of a series of hydrophilic cellulose or nitrocellulose fibers that transport fluid from

    Paper-based microfluidics

    Paper-based_microfluidics

  • Microfluidic cell culture
  • controlled laboratory environment. Microfluidics has been used for cell biology studies as the dimensions of the microfluidic channels are well suited for the

    Microfluidic cell culture

    Microfluidic_cell_culture

  • Microfluidics in chemical biology
  • Interdisciplinary science in scientific discipline

    Microfluidics in chemical biology is the application of microfluidics in the study of chemical biology. Due to its physical dimensions, microfluidics

    Microfluidics in chemical biology

    Microfluidics_in_chemical_biology

  • Mixing (process engineering)
  • Process of mechanically stirring a heterogeneous mixture to homogenize it

    Bibcode:2005JMiMi..15R...1N. doi:10.1088/0960-1317/15/2/R01. S2CID 16772224. "Microfluidic Mixing - Redbud Labs". redbudlabs.com. Archived from the original on

    Mixing (process engineering)

    Mixing (process engineering)

    Mixing_(process_engineering)

  • Biochip
  • Substrates performing biochemical reactions

    For example, digital microfluidic biochips are under investigation for applications in biomedical fields. In a digital microfluidic biochip, a group of

    Biochip

    Biochip

    Biochip

  • Roger D. Kamm
  • American biological and mechanical engineer

    contributions to mechanobiology, physiological fluid mechanics, and microfluidic models for disease and drug testing. He is the Cecil and Ida Green Distinguished

    Roger D. Kamm

    Roger_D._Kamm

  • UBC Okanagan Digital Microfluidics
  • application-specific structures). UBC Okanagan Digital Microfluidics Archived 2011-07-06 at the Wayback Machine Duke University Digital Microfluidics

    UBC Okanagan Digital Microfluidics

    UBC_Okanagan_Digital_Microfluidics

  • Chih-Ming Ho
  • the pioneers of studying flows inside microfluidic channels[7,8] and micro bio-molecular sensors[9,10]. Microfluidic devices are in the dimension of microns

    Chih-Ming Ho

    Chih-Ming Ho

    Chih-Ming_Ho

  • Craig Alexander Simmons
  • Canadian mechanobiologist (born 1969)

    Toronto. Simmons contributes to the fields of mechanobiology, stem cells, microfluidics and tissue engineering. Simmons reports being inspired to become an

    Craig Alexander Simmons

    Craig_Alexander_Simmons

  • Roozbeh Ghaffari
  • American biomedical engineer and neuroscientist

    Congress Gold Prize Winner (2018) Museum of Modern Art (NYC) ‘Sweat Microfluidics: Lab on the Skin’ Exhibit (2017) TEDX Gateway Invited Speaker  (2016)

    Roozbeh Ghaffari

    Roozbeh Ghaffari

    Roozbeh_Ghaffari

  • Microfluidic diffusional sizing
  • Method of measuring particle size

    Microfluidic diffusional sizing (MDS) is a method to measure the size of particles based on the degree to which they diffuse within a microfluidic laminar

    Microfluidic diffusional sizing

    Microfluidic_diffusional_sizing

  • Stephen Quake
  • American scientist, inventor and entrepreneur (born 1969)

    transplant rejection, infectious disease, and cancer. His work, using microfluidics at the interface of cell biology and genomics, led to the development

    Stephen Quake

    Stephen Quake

    Stephen_Quake

  • Microfluidic modulation spectroscopy
  • Infrared spectroscopy technique

    Microfluidic modulation spectroscopy (MMS) is an infrared spectroscopy technique that is used to characterize the secondary structure of proteins. Infrared

    Microfluidic modulation spectroscopy

    Microfluidic_modulation_spectroscopy

  • Sanket Goel
  • Indian academic (born 1977)

    Hyderabad, Telangana. He is the principal investigator of the MEMS, microfluidics and nanoelectronics (MMNE) Lab and founding director of Cleome Innovations

    Sanket Goel

    Sanket_Goel

  • Shrinky Dinks
  • Arts-and-crafts kit

    applied Shrinky Dinks to create tiny structures for the application of microfluidics to topics such as stem cell research. In 2022, Khine researched the

    Shrinky Dinks

    Shrinky Dinks

    Shrinky_Dinks

  • Microfluidic whole genome haplotyping
  • inference methods. Microfluidics refers to the use of micro-sized channels on a micro-electro-mechanical system (MEMS). Microfluidic channels have a diameter

    Microfluidic whole genome haplotyping

    Microfluidic_whole_genome_haplotyping

  • Organ-on-a-chip
  • Nanotechnology simulation of human organ function

    Juncker D (2018-01-26). "Microfluidic Probe for Neural Organotypic Brain Tissue and Cell Perfusion". Open-Space Microfluidics: Concepts, Implementations

    Organ-on-a-chip

    Organ-on-a-chip

  • Nam-Trung Nguyen
  • Vietnamese scientist

    fields of microfluidics and nanofluidics. He is notable for his work on nerve agent detectors, PCR, micromixers, droplet-based microfluidics, micro-magnetofluidics

    Nam-Trung Nguyen

    Nam-Trung Nguyen

    Nam-Trung_Nguyen

  • Capillary pressure
  • Pressure between two fluids from forces between the fluids and tube walls

    for accurate pressure measurements in microfluidics. The primary issue with measuring the pressure in microfluidic devices is that the volume of fluid is

    Capillary pressure

    Capillary_pressure

  • Andrew deMello
  • British chemist

    contributions in diverse areas, but is best known for his work in the fields of microfluidics, nanotechnology, bioanalytical chemistry and Optical Spectroscopy, having

    Andrew deMello

    Andrew deMello

    Andrew_deMello

  • IDEX Corporation
  • American industrial company

    markets. "Idex Enters Pact to Acquire Microfluidics International". Close-Up Media. January 19, 2011. Microfluidics' leading technology in particle size

    IDEX Corporation

    IDEX_Corporation

  • Dolomite Bio
  • English healthcare company

    sister company Dolomite Microfluidics (part of the Blacktrace group of companies). Dolomite Bio now serves all of Dolomite Microfluidics' biology customers

    Dolomite Bio

    Dolomite Bio

    Dolomite_Bio

  • Eugenia Kumacheva
  • Canadian chemist

    fields of fundamental and applied polymers science, nanotechnology, microfluidics, and interface chemistry. She was awarded the L'Oréal-UNESCO Awards

    Eugenia Kumacheva

    Eugenia Kumacheva

    Eugenia_Kumacheva

  • Cell sorting
  • Process of separating populations of cells

    Weitz DA (March 2010). "Ultrahigh-throughput screening in drop-based microfluidics for directed evolution". Proceedings of the National Academy of Sciences

    Cell sorting

    Cell_sorting

  • Polydimethylsiloxane
  • Industrial and food chemical

    making it one of the most common materials used for flow delivery in microfluidics chips. The process of soft lithography consists of creating an elastic

    Polydimethylsiloxane

    Polydimethylsiloxane

    Polydimethylsiloxane

  • List of MEMS foundries
  • Pure-play  United States B-Micron MEMS foundry, backend processes, custom microfluidics development, sensor and photonics/optoelectronics, RF/communications

    List of MEMS foundries

    List_of_MEMS_foundries

  • Spider silk
  • Protein fiber made by spiders

    are now explored for mimicking the basal membrane in tissue modeling. Microfluidics have the advantage of being controllable and able to test spin small

    Spider silk

    Spider silk

    Spider_silk

  • Patrick Tabeling
  • French physicist

    laboratories in microfluidics as a chairman of the French microfluidic network. Patrick Tabeling has published "Introduction to Microfluidics" (Oxford University

    Patrick Tabeling

    Patrick Tabeling

    Patrick_Tabeling

  • Extracellular RNA
  • RNA species present outside of the cells in which they were transcribed

    normalization techniques in order to obtain accurate results and conclusions. Microfluidic platforms such as the Agilent Bioanalyzer are useful in assessing the

    Extracellular RNA

    Extracellular_RNA

  • Cho Yoon-kyoung
  • Korean scientist

    interdisciplinary researcher involved in basic science to translational research in microfluidics and nanomedicine. She is a group leader in the Center for Soft and Living

    Cho Yoon-kyoung

    Cho Yoon-kyoung

    Cho_Yoon-kyoung

  • Electrowetting
  • Physical process

    Taiwan University (archived 2020) Wheeler Microfluidics Laboratory at the University of Toronto Digital Microfluidics Lab at Duke University Physics of Complex

    Electrowetting

    Electrowetting

  • Cell culturing in open microfluidics
  • Open microfluidics can be employed in the multidimensional culturing of cell types for various applications including organ-on-a-chip studies, oxygen-driven

    Cell culturing in open microfluidics

    Cell_culturing_in_open_microfluidics

  • RARAF
  • Biotechnology research center in Irvington, New York, U.S.

    and biological materials afforded by microfluidics are ideal to interface with the microbeam. Additional microfluidic systems beyond those listed here are

    RARAF

    RARAF

  • Dino Di Carlo
  • American bioengineer

    Bioengineering at UCLA since 2008. His research focuses on Inertial Microfluidics and numerous other fields of biomedicine and biotechnology. He has also

    Dino Di Carlo

    Dino Di Carlo

    Dino_Di_Carlo

  • Suman Chakraborty
  • Indian professor

    2019). "Water desalination using graphene oxide-embedded paper microfluidics". Microfluidics and Nanofluidics. 23 (6): 80. doi:10.1007/s10404-019-2247-5

    Suman Chakraborty

    Suman_Chakraborty

  • Microchannel (microtechnology)
  • Basic structure used in microtechnology

    1 mm, usually 1–99 μm. Microchannels are used in fluid control (see Microfluidics), heat transfer (see Micro heat exchanger) and cell migration observation

    Microchannel (microtechnology)

    Microchannel (microtechnology)

    Microchannel_(microtechnology)

  • Standard BioTools
  • American life science tools company

    described as “the world’s leading manufacturer of microfluidic devices.” The company’s original microfluidics products were aimed for use in applications such

    Standard BioTools

    Standard BioTools

    Standard_BioTools

  • Intestine-on-a-chip
  • Microfluidic bioengineered 3D-model

    Mengjie; Yu, Xiaohui; Qin, Kairong; Liu, Bo (4 May 2017). "The Role of Microfluidics for Organ on Chip Simulations". Bioengineering. 4 (2): 39. doi:10

    Intestine-on-a-chip

    Intestine-on-a-chip

  • HP Labs
  • Research division of HP Inc.

    for advanced metals to be incorporated in 3D printing. The lab invents microfluidic and imaging technologies for markets beyond office and home print, such

    HP Labs

    HP Labs

    HP_Labs

  • Optoelectrowetting
  • Optoelectrowetting (OEW) is a method of liquid droplet manipulation used in microfluidics applications. This technique builds on the principle of electrowetting

    Optoelectrowetting

    Optoelectrowetting

  • Bio-MEMS
  • Microtechnology

    approach combining electrokinetic phenomena and microfluidics is digital microfluidics. In digital microfluidics, a substrate surface is micropatterned with

    Bio-MEMS

    Bio-MEMS

    Bio-MEMS

  • Nanofluidic circuitry
  • Nanotechnology

    and nanotechnology, the study of microfluidics and nanofluidics is drawing more attention. Research on microfluidics found its advantages in DNA analysis

    Nanofluidic circuitry

    Nanofluidic_circuitry

  • George M. Whitesides
  • American chemist

    chemistry, molecular self-assembly, soft lithography, microfabrication, microfluidics, and nanotechnology. A prolific author and patent holder who has received

    George M. Whitesides

    George M. Whitesides

    George_M._Whitesides

  • Sabeth Verpoorte
  • Professor of microfluidics

    Elisabeth MJ Verpoorte is a professor of microfluidics and miniaturized "lab-on-a-chip" systems in the Faculty of Science and Engineering at the University

    Sabeth Verpoorte

    Sabeth Verpoorte

    Sabeth_Verpoorte

  • Optical pooled screening
  • Methodology for biomedical research

    high content screening immunofluorescence reporters live cell imaging microfluidic devices automation of reagent dispensing "'Early January Interim Update'

    Optical pooled screening

    Optical pooled screening

    Optical_pooled_screening

  • MIMETAS
  • The company is co-led by Joore and Vulto as CEOs. Mimetas develops microfluidic tissue culture technology based on its proprietary OrganoPlate platform

    MIMETAS

    MIMETAS

  • Plasma cleaning
  • Cleaning method using gas

    flow are harnessed by microfluidic devices for a wide variety of research applications. The most widely used material for microfluidic device prototyping

    Plasma cleaning

    Plasma cleaning

    Plasma_cleaning

  • Geniom RT Analyzer
  • introduction of biotin prior to hybridization. Due to the application of microfluidics, neither initial biotin nor reagent treatment is necessary prior to

    Geniom RT Analyzer

    Geniom_RT_Analyzer

  • Z. Hugh Fan
  • US-based biomedical engineer

    is known for his pioneering work in microfluidics in the early 1990s, while his research work spans microfluidics, biomedical microelectromechanical systems

    Z. Hugh Fan

    Z._Hugh_Fan

  • Matthias Lütolf
  • Swiss biomedical engineer

    Scientific career Fields Stem Cells Biomaterials Tissue Engineering Microfluidics Single-Cell Analysis High-Throughput Screening Institutions EPFL (École

    Matthias Lütolf

    Matthias Lütolf

    Matthias_Lütolf

  • Albert Folch Folch
  • Spanish bioengineer (born 1966)

    Microfluidic Technology), and a general-public microfluidics book also in English (How the World Flows - Microfluidics from Raindrops to Covid Tests). Caught

    Albert Folch Folch

    Albert Folch Folch

    Albert_Folch_Folch

  • Aaron Wheeler (chemist)
  • Canadian chemist

    Bioanalysis". Retrieved 2023-02-24. "Wheeler Microfluidics Laboratory: Aaron Wheeler - Director". microfluidics.utoronto.ca. Retrieved 2023-02-24. Maundrell

    Aaron Wheeler (chemist)

    Aaron_Wheeler_(chemist)

  • Octobot (robot)
  • Concept soft-bodied mechanism

    researchers with backgrounds in mechanical engineering, 3D printing, microfluidics, and robotics. Octobot was described in the journal Nature in 2016.

    Octobot (robot)

    Octobot_(robot)

  • Juan G. Santiago
  • American academic

    Engineering at Stanford University and the director of the Stanford Microfluidics Laboratory. His research includes studies of microscale transport and

    Juan G. Santiago

    Juan G. Santiago

    Juan_G._Santiago

  • DNA sequencing
  • Process of determining the nucleic acid sequence

    There are two main microfluidic systems that are used to sequence DNA; droplet based microfluidics and digital microfluidics. Microfluidic devices solve many

    DNA sequencing

    DNA sequencing

    DNA_sequencing

  • Surface acoustic wave
  • Sound wave which travels along the surface of an elastic material

    an open system. This mechanism has also been used in droplet-based microfluidics for droplet manipulation. Notably, using SAW as an actuation mechanism

    Surface acoustic wave

    Surface acoustic wave

    Surface_acoustic_wave

  • Klavs F. Jensen
  • Danish-American chemical engineer (born 1952)

    journal articles describing significant advances in flow chemistry, microfluidics, chemical vapor deposition, and chemical engineering which includes

    Klavs F. Jensen

    Klavs_F._Jensen

  • Impedance pump
  • impedance pump -- can be used as a micropump for lab-on-a-chip active microfluidics. Rinderknecht, Derek Gresham (2008). "Development of a microimpedance

    Impedance pump

    Impedance_pump

  • David Erickson (academic)
  • Professor of mechanical and aerospace engineering

    School of Mechanical and Aerospace Engineering. His research spans microfluidics and optofluidics, including point-of-care diagnostic technologies for

    David Erickson (academic)

    David_Erickson_(academic)

  • David A. Weitz
  • his work in the areas of diffusing-wave spectroscopy, microrheology, microfluidics, rheology, fluid mechanics, interface and colloid science, colloid chemistry

    David A. Weitz

    David_A._Weitz

  • Electrohydrodynamics
  • Study of electrically conducting fluids in the presence of electric fields

    Driven Microfluidics and Nanofluidics. Cambridge University Press. Kirby, B.J. (2010). Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices

    Electrohydrodynamics

    Electrohydrodynamics

    Electrohydrodynamics

  • Chang-Hwan Choi
  • University of California, Los Angeles (Ph.D.) Known for Nanofabrication, Microfluidics/Nanofluidics, Surface Engineering Scientific career Fields Mechanical

    Chang-Hwan Choi

    Chang-Hwan_Choi

  • Electro-osmosis
  • Movement of liquid through a conduit due to electric potential

    Theoretical Microfluidics. OUP Oxford. ISBN 978-0-19-923509-4. Kirby, B. J. (2010). Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices:

    Electro-osmosis

    Electro-osmosis

    Electro-osmosis

  • Polly Fordyce
  • Stanford University Professor of BioEngineering

    approaches including microfluidics. One of her lab's accomplishments is the development of the method HT-MEK (High-Throughput Microfluidic Enzyme Kinetics)

    Polly Fordyce

    Polly_Fordyce

  • John Michael Ramsey
  • later renamed Caliper Life Sciences, a company that commercializes microfluidics and lab-on-a-chip technologies. Caliper Life Sciences was acquired by

    John Michael Ramsey

    John_Michael_Ramsey

  • Teruo Fujii
  • President of the University of Tokyo

    of the institute from 2015 to 2018 ) has been conducting research on Microfluidics.[a] He received his Ph.D. in engineering from the University of Tokyo

    Teruo Fujii

    Teruo Fujii

    Teruo_Fujii

  • Tony Jun Huang
  • 2017. "Microfluidic devices gently rotate small organisms and cells". Retrieved August 3, 2017. "Gently rotating small organisms in a microfluidic device"

    Tony Jun Huang

    Tony Jun Huang

    Tony_Jun_Huang

  • Isoelectric focusing
  • Type of electrophoresis

    provide rapid protein analysis, straightforward integration with other microfluidic unit operations, whole channel detection, nitrocellulose films, smaller

    Isoelectric focusing

    Isoelectric focusing

    Isoelectric_focusing

  • BITS Pilani
  • Deemed university in Pilani, Rajasthan, India

    for advanced research in aerodynamic and renewable energy, the MEMS, Microfluidics & Nanoelectronics Lab (MMNE Lab) and Intracellular Parasite Education

    BITS Pilani

    BITS_Pilani

  • Micropump
  • rectification device are commonly known as Valveless Micropumps. In microfluidics, capillary pumping plays an important role because the pumping action

    Micropump

    Micropump

    Micropump

  • Christoph Merten
  • German bio-engineer and entrepreneur

    Research in Lausanne. His research focuses on developing biomedical microfluidics technologies for drug discovery, diagnostics, and personalized therapy

    Christoph Merten

    Christoph Merten

    Christoph_Merten

  • Interferometry
  • Measurement method using interference of waves

    physics, plasma physics, biomolecular interactions, surface profiling, microfluidics, mechanical stress/strain measurement, velocimetry, optometry, and making

    Interferometry

    Interferometry

    Interferometry

  • Total analysis system
  • micro total analysis systems (μTAS) which utilize the principles of microfluidics. Total analysis systems are designed to shrink the processes carried

    Total analysis system

    Total_analysis_system

  • Satish Kandlikar
  • American mechanical engineer

    worked in flow boiling, pool boiling, microchannel heat transfer, and microfluidics. Three dimensionless numbers used in boiling heat transfer are named

    Satish Kandlikar

    Satish_Kandlikar

  • Anodic bonding
  • is commonly used to seal glass to silicon wafers in electronics and microfluidics. Anodic bonding, also known as field assisted bonding or electrostatic

    Anodic bonding

    Anodic_bonding

  • Particle size analysis
  • Laboratory technique

    complex correction factors is to apply machine learning (ML) techniques. Microfluidic diffusional sizing (MDS) is a method of particle size analysis dependent

    Particle size analysis

    Particle_size_analysis

  • Coandă effect
  • Tendency of a fluid jet to stay attached to a surface of any form

    friction Lift (force) Magnus effect Microelectromechanical systems Microfluidics NOTAR Teapot effect Tesla valve Trench effect Aerodynamic levitation

    Coandă effect

    Coandă effect

    Coandă_effect

  • First pass effect
  • Phenomenon of drug metabolism

    improving its bioavailability. In in vitro models, such as the use of microfluidic chips that simulate the gut and liver, allow first-pass metabolism to

    First pass effect

    First pass effect

    First_pass_effect

  • Antibiotic sensitivity testing
  • Microbiology test used in medicine

    more accurate, as well as developing new methods for testing, such as microfluidics. In clinical medicine, antibiotics are most frequently prescribed on

    Antibiotic sensitivity testing

    Antibiotic sensitivity testing

    Antibiotic_sensitivity_testing

  • Electroactive polymer
  • Polymer responsive to electric fields

    have huge potential for microfluidics, e.g. as drug delivery systems, microfluidic devices and lab-on-a-chip. A first microfluidic platform technology reported

    Electroactive polymer

    Electroactive polymer

    Electroactive_polymer

  • Steve Wereley
  • American engineer

    research include Micro- and Nanofluidics, Particle Image Velocimetry, Opto-microfluidics and bio-MEMS. He is the co-inventor of micro-PIV. In 1990, Wereley completed

    Steve Wereley

    Steve Wereley

    Steve_Wereley

  • Lim Chwee Teck
  • Singaporean researcher and entrepreneur

    (2010–2022). Lim's research interests include human disease mechanobiology, microfluidic technologies for disease diagnosis and precision therapy, and soft wearable

    Lim Chwee Teck

    Lim Chwee Teck

    Lim_Chwee_Teck

  • Perovskite nanocrystal
  • Class of semiconductor nanocrystals

    phase. Microfluidics have been also used to synthesize CsPbX3 NCs and to screen and study synthetic parameters. Recently, a modular microfluidic platform

    Perovskite nanocrystal

    Perovskite nanocrystal

    Perovskite_nanocrystal

  • Stefan problem
  • Concept in mathematics

    "A mathematical model for nanoparticle melting with density change". Microfluidics and Nanofluidics. 18 (2): 233–243. doi:10.1007/s10404-014-1423-x. ISSN 1613-4982

    Stefan problem

    Stefan_problem

  • Chemical biology
  • Scientific discipline

    Drosophila embryonic patterning network perturbed in space and time using microfluidics". Nature. 434 (7037): 1134–1138. Bibcode:2005Natur.434.1134L. doi:10

    Chemical biology

    Chemical biology

    Chemical_biology

  • Paper-based biosensor
  • Paper-based biosensors are a subset of paper-based microfluidics used to detect the presence of pathogens in water. Paper-based detection devices have

    Paper-based biosensor

    Paper-based biosensor

    Paper-based_biosensor

  • Propofol
  • Intravenous medication used in anesthesia

    Retrieved 25 October 2023. "Making Stable, Sterile Propofol". www.microfluidics-mpt.com. Retrieved 25 October 2023. "Propofol". go.drugbank.com. Retrieved

    Propofol

    Propofol

    Propofol

  • Electroosmotic pump
  • Device that generates flow using an electric field

    2019-04-28. Retrieved 2011-01-08. Bruus, H. (2007). Theoretical Microfluidics. "microfluidics EO pump". Archived from the original on 2008-02-09. Retrieved

    Electroosmotic pump

    Electroosmotic_pump

  • Off-stoichiometry thiol-ene polymer
  • bridge the gap between research prototyping and commercial production of microfluidics devices. The resins were later adapted and improved for commercial applications

    Off-stoichiometry thiol-ene polymer

    Off-stoichiometry thiol-ene polymer

    Off-stoichiometry_thiol-ene_polymer

  • MRNA vaccine
  • Type of vaccine

    involve the use of microfluidics. Microfluidic reaction chambers are difficult to scale up, since the entire point of microfluidics is to exploit the microscale

    MRNA vaccine

    MRNA vaccine

    MRNA_vaccine

  • Boltzmann constant
  • Physical constant relating particle kinetic energy with temperature

    Transport in Microfluidic Devices (PDF). Cambridge University Press. ISBN 978-0-521-11903-0. Tabeling, Patrick (2006). Introduction to Microfluidics. Oxford

    Boltzmann constant

    Boltzmann constant

    Boltzmann_constant

  • Jurin's law
  • Analysis of capillary action

    of the most common fluid mechanical effects explored in the field of microfluidics. Jurin's law is named after James Jurin, who discovered it between 1718

    Jurin's law

    Jurin's law

    Jurin's_law

  • John A. Rogers
  • Chemist and materials scientist

    on soft materials for conformal electronics, nanophotonic structures, microfluidic devices, and microelectromechanical systems, all lately with an emphasis

    John A. Rogers

    John A. Rogers

    John_A._Rogers

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Online names & meanings

  • Gamya | கம்யா
  • Girl/Female

    Tamil

    Gamya | கம்யா

    Beautiful, A destiny

  • Pranihita
  • Girl/Female

    Indian

    Pranihita

    Name of an Apsara

  • Nikomedes
  • Boy/Male

    Finnish, German, Greek

    Nikomedes

    To Ponder Victory; Victorious Scheme

  • Kaveri
  • Girl/Female

    Hindu

    Kaveri

    Same as Cauvery name of a river

  • Thaarini
  • Girl/Female

    Hindu, Indian

    Thaarini

    Earth

  • Engelbertina
  • Girl/Female

    German

    Engelbertina

    Bright angel.

  • Elika
  • Girl/Female

    Biblical

    Elika

    Pelican of God.

  • Batrisyia
  • Girl/Female

    Arabic, Muslim

    Batrisyia

    Intelligent

  • Shailu
  • Girl/Female

    Hindu, Indian, Tamil

    Shailu

    Goddess Parvati

  • Vagesh | வாகேஷ
  • Boy/Male

    Tamil

    Vagesh | வாகேஷ

    Lord of speech

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MICROFLUIDICS

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MICROFLUIDICS