Topic

microfluidics, lab-on-chip, biomedical

Digital (droplet-based) microfluidics, microfluidics, lab-on-chip, optofluidics

microfluidics, lab-on-chip, BioMEMS, EnergyMEMS, biomedical

biomedical

microfluidics

microfluidics, biofilms, lab-on-chip, Biomimetics, biosystems, bacterial chemotaxis

microfluidics, Immune cell trafficking, lab-on-chip, BioMEMS, biomedical

microfluidics, polymer science, biological environments, gas/liquid

microfluidics, On-chip Colloidal Synthesis, Biomedial

droplet based (digital)

biomedical

proteomics, multiplexed systems

LOC, Bio-MEMS, Energy Application

biomedical

biomedical micro/nano-fluidics, optofluidics, sustainable energy, micro fuel cells

Microscale thermo-fluidics, Power MEMS (microturbines, micro fuel cells), micro-cooling

biosensor,POC diagnostic devices,LOC

Nano- and Micro-fluidics, Biosensors, Biomedical, Lab-on-a-Chip

Microfluidics, lab-on-chip, Bioanalysis, Nanotechnology, Cellular analysis, Biomedical, Forensics.

Microfluidics, lab-on-chip, biomedical

Droplet-based microfluidics, microfluidic-networks, combinatorial dilution

Biological Interfaces, Biomedical Devices, Microfluidics, Sensor Technology

Integrated bioanalytical devices for clinical and forensic applications. Microfluidic separations, rapid non-contact PCR, acoustic cell handling, visual DNA detection, rapid device fabrication

BioMEMS, Microfluidics, Neuroscience, Cell biology, and Biotechnology

Microfluidic separation, Bio-inspired microfluidic design, Nanofluidics, Complex fluids, Mechanics of soft matter

Microfluidics, Electrokinetic flows, Nanoscale transport

Microfluidics, Thin fluid films, Hemodynamics, Biochemical analysis

Bioanalytical, Biofuels, Biodefense and Microfluidics Diagnostics

MEMS, BioMEMS, Nanotechnology and Microfluidics Diagnostics

Micro and nanofluidics

valves, detection, 2D electrophoresis, Lab-on-Chip integration

BioMEMS & Bioanalytical Microfluidic Devices

biochemical separations, sensors, biophysics, colloidal science, nanomotors, fuel cells

protein crystallography, two phase transition studies

Fraunhofer Center for Manufacturing Innovation^[37]

BioMEMS, Microfluidics, etc.

plug based microfluidics, dynamics of complex chemistry and biology systems, diagnosis and assays

BioMEMS, Microfluidics, etc.

microfluidics, micro drops and bubbles, optofluidics

Microfluidics, Point of Care Diagnostics, Tissue Engineering

micro/nanofluidics, Lab on a Chip

biosensors

analytical devices, micromachining

Optofluidics, nanofluidic sensors, autonomous microfluific systems

micro/nanofluidic transport, Lab-on-a-Chip, BioMEMS, cellular analysis, interfacial science

microfluidics, lab-on-a-chip

micro/nanoscale transport and assembly, suspensions, chaotic mixing, segregation, rheology, convective deposition, dielectrophoresis

electrokinetics, Lab-on-a-Chip, dielectrophoresis, pH gradients, electrocatalysis

Janus particles, biosensors

analysis of complex fluids

detection, separation, preconcentration, electroosmotic pumps, fuel cells

Microfluidic Large Scale Integration

Microfluidics, Microreactors, Fuel Cells

NeuroEngineering: Microfluidics applied to neuronal development and emergent behaviors of cell clusters

clinical diagnosis

compartmentalized evolution, rational GUV synthesis

lab-on-chip, biological and chemical applications

DNA sequencing

soft lithography, plasmonics

capillary electrophoresis

Label-free cytometry, Resistive-pulse sensing, Point-of-care diagnostics, Rare cell isolation and analysis

Digital/Droplet microfluidics, microfluidic pumps, sensors

Centrifugal Fluidics, Dielectrophoresis, Micromixing, Electroactive polymers, Biosensors, Electrochemistry

Microfluidics, Neuroscience, single cell analysis, separation, electrochemistry, biosensors

Microfluidics, Single cell analysis, Genetic analysis, Glycoproteomics and glycomics, Self-assembly of nanomaterials

Interfacial Fluid Dynamics - micro-fabrication techniques, small-scale transport processes, multiphase flows, wetting dynamics, miscible flows, instabilities, and the rheology of complex fluids

Inertial microfluidics

nonlinear electrokinetics, microrheology

biosensors and diagnostics

science of microfluidics (physics)

Applications of micro- and nanotechnology to tissue repair and regeneration

Medical technology for the developing world

Micro/nanofluidics, nanofluidic biomolecule separation and detection and nanostructure-biomolecule interactions

dynamics of fluids with microstructure, microfluidics, complex fluids, non-Newtonian fluid mechanics

Micro- and nano-structured materials and devices for chemical, biological, optical, electronic and energy applications

Microscale and nanoscale technologies with the ultimate goal of generating tissue-engineered organs and controlling cell behavior

Quantitative and real-time techniques for biomolecular detection and single cell analysis

Microfluidics applied to fundamental and applied problems in cell biology, with a focus on cell sorting and stem cell biology

Development and applications of high-throughput technologies for probing and engineering neural processes

colloid physics, capillary microfluidics, soft lithography, encapsulation & delivery, biology in microfluidics

soft lithography, organic chemistry

valves, multiplexing

valves, detection

microreaction systems, microseparations, chemical and biochemical analysis

valves, detection

Chemistry of neurobiology

BioMEMS, Field flow fractionation

Neuro-MEMS

point-of-care diagnostics

Lab on a Chip diagnostics, cell isolation for regenerative medicine

mathematical modeling of microfluidic flows and transport processes

molecular signaling, cellular motility, angiogenesis, and metastasis

Electroporation, single cell analysis, gene delivery, epigenetics

Microfluidic biosensors, cell separation devices, DNA purification, microcatheters

Living cell arrays, Brain-on-a-chip, Allergy-on-a Chip, Cell separation; Microdevices for single cell analysis

Microfluidic and nanofluidic transport phenomena, electrokinetic particle manipulations

Microfluidics, Biosensors, Soft Matter

Real-time microfluidic PCR, DNA damage detection, Rapid prototyping, Biosensing, BioMEMS based differential scanning calorimetry, Portable PCR devices

Microscale electrokinetics and microfluidics.

Nanostructured surfaces, physics of liquid-solid interfaces, and micro and nano-fluidics.

Topic

microfluidics, microresonators, microactuators, microsensors

Microfluidic application in chemistry, physic and engineering areas. Soft Lithography, plasma.

Instrumentation and Method Development for Capillary and Microchip Electrophoresis.

Topic

lab-on-a-chip, sensors

microfluidics, optofluidics, physical chemosensors, on-chip electrophoresis, fluid mixing, single-cell analysis

amino acids

cell chips, medical diagnostics, bioelectronics

Optofluidics, biophotonics, nonlinear optics

Biomimetic Structures, Cell Analysis, Synthesis, Single Molecule Spectroscopy

Integrated bio- and chemosensors, high-density multi-electrode arrays, cell handling and analysis

medical diagnostics, biosensors

Microfludics for chemical analysis, device fabrication

Microfludics for chemical analysis

Lab-on-chip, biosensors, cell manipulation, device fabrication

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Microfluidics for cell and systems biology, neuron chips, biomimetism, artificial cells

Droplet and Nano-droplets, Chemical reactions, Cells

Droplet microfluidics

Droplet microfluidics

Electrowetting, Digital and continuous-flow microfluidics, Lab-on-chip, Dielectrophoresis, Electrokinetics, Impedancemetry, Biosensors, Nanoparticles for cell tracking, Flexible substrates

Lab-on-chip, biophysics, molecular interactions, molecular transport, Nanoparticles, single molecule, single cell, bioanalytical microfluidics,

separation of biomolecules, nanofluidics, dynamics of reaction networks, nanoimprint,

Microfluidics for Cells and tissues, high throughput screening, ultraprecise flow control, perfusion systems

Microfluidic systems for large-scale screens in biology and chemistry

SAW (surface acoustic wave) driven microfluidics, deformable objects in complex flow, Lab on a Chip, droplet microfluidics, membrane physics, biophysics

Biomolecule separation, electrokinetics, heat and mass transfer, lab-on-a-chip technology, liquid/liquid interfaces, micro- and nanoscale energy conversion, optofluidics

Microfluidic Segments, Nanoparticles in Microreactors, Optical pH sensing

Droplet microfluidics, Emulsions, Membranes & interfaces Physical-chemistry.

Droplet microfluidics

Microreactors, droplet microfluidics, complex reactions

Lab on a chip, micro system technology, microstructures, analytics (biological, chemical), diagnostics, energy technology, fluidic simulations

Lab on a chip, micro system technology, microstructures, integrated microfluidic low-cost actuation, fully integrated microfluidic cartridges for in-vitro diagnostics

optical techniques (µPIV, µPTV, 3d3c techniques^[133]), astigmatism-µPTV^[134]

separation, plasma, cells

soft matter, clinical diagnostics, cell biology applications

Migration and dynamics of biomolecules in µF devices

Lab on a Chip, micro dosage systems, micro medical technology, Fluidic Simulations

Lab on a Chip, Tools for Cells, nL & pL Dispensing, Fluidic Simulations

analytical chemistry

Lab on a Chip devices and prototyping, optical readout of information, droplet-based microfluidics, on-Chip PCR, multiphase flow diagnostics and simulation

Microreaction Technology, Micro Process Engineering, Microfluidics

Microflow cytometry, MicroPIV, Cytotoxicity, Cell sorting, Laeukemia analysis, PCR

Electrokinetics, separations, lab-on-a-chip, biosensors, medical diagnostics

Heat transfer, MicroPIV

Biomaterials, Bioencapsulation, Cell entrapment, Drug delivery

Lab on a chip, Micro & Nano approaches for analytical challenges

evolution-on-a-chip, bacterial synthetic ecosystems, biophysics, evolutionary biology, adapting bacteria in nanostructures

lab-on-a-chip, BioMEMS, MicroPIV, NanoPIV

Industrial applications: lab-on-a-chip, (bio)analytics, microreactors, micro process technology, printing, encapsulation

microreactors, chemical kinetics, analytical chemistry

(electro)wetting, confined liquids, microrheology

biosensors, cells on chips

bubble dynamics, inkjet printing

lab-on-a-chip

dropplet microfluidics, lab on chip, microfluidic emulsification and micro-foams

chemical sensors, microfluidics, medical diagnostics, cell engineering and testing

Freestanding microfluidic platforms, for single cell stimuli delivery

Device fabrication and proteomics

components, drug delivery

Electroosmotic pumps, separations, guidance of fluids in microfluidic systems

Device fabrication, lab-on-a-chip, microfluidic valves and pumps, microfluidic hydraulics, microdialysis of proteins and peptides

Microfluidics, lab-on-a-chip for biomedical applications

Lab-on-a-chip, molecular diagnostics

Single-molecule sequencing, single-molecule PCR, microscale immunoassays

Bionanotechnology, Point of Care, Tissues Engineering, Micro-plasma Technology, Medical Devices, Electronics, Photonics, Nanotechnology, Sensors, MEMS, Optical and Environmental devices

Bionanotechnology, Micro-analytical devices, Nanofluidics, AC Electrokinetics: Cell and particle manipulation methods, AC Electrokinetics: Fluid interactions, Optical biosensing, Modelling and theoretical work

Device Fabrication, Analysis, Microfluidics, Nano-droplets, Biosensors, Separation Science

Microfluidics, nanofabrication, plasmonics, CFD, Biosensors, Laser tweezing, Surface enhanced Raman spectroscopy

mixing, CFD, components

Development of novel computational and experimental methods for design of microfluidic devices such as micromixers and micropumps

Microfluidics research focusing on microscale bioprocessing for applications such as drug discovery, cell therapy, mammalian cell culture and enzymatic bioconversion

Deployment of nanoscale photonic measurement techniques and expertise in microsystem design and fabrication

Droplet microfluidics, Bionanotechnology, Micro-analytical devices, Nanoparticle synthesis, Nanofluidics, Diagnostics, Ultra sensitive optical sensing

Flow instabilities, enhanced mixing systems, optimization of micro-devices, micron-sized extensional rheometer, CFD

Development of applications with microfluidic devices