International Conference on Organ-on-a-Chip Technology

Theme: Advancements in microfluidic applications bridging the gap between lab & industry

DATE

October 27-28, 2025

Venue

Vancouver, Canada

About Organ-on-a-Chip Technology Conferences :

Microfluidics conferences and Nanofluidics conferences are pleased to announce their forthcoming Microfluidics event on October 27-28, 2024, at the Vancouver, Canada. The conference’s theme is “Advancements in Microfluidics and NanofluidicsTechnologies,” and  this conference includes a variety of microfluidics events such as keynote speeches from leading experts, technical sessions highlighting the most recent research, and panel discussions addressing both current challenges and future prospects in these innovative fields.

Microfluidics conferences and Nanofluidics conferences are specialized meetings that focus on the latest advances in fluid manipulation at the microscale. The conference includes a range of Microfluidics events that demonstrate cutting-edge research and applications. These  Microfluidics events bring together researchers, engineers and industry experts to discuss the most recent advancements. Attendees will be able to participate in Microfluidics events that show cases  advances in  lab-on-a-chip technologies, microfabrication processes and applications in sectors like medical diagnostics, chemical analysis and environmental monitoring. Attendees can exchange ideas, present research and learn about new advances in microfluidic systems. 

Scientific Session

Below are the scientific sessions of the conference

Microfluidics conferences focus on the precise manipulation of small fluid volumes within microscale channels, allowing for accurate control of chemical and biological processes. This technique improves quick analysis, decreases reagent usage, and enables lab-on-a-chip diagnostics and research. The Microfluidics and Nanofluidics Conference 2024 will highlight the most recent breakthroughs and novel applications, providing insights into upcoming potential in the discipline, which includes microanalysis, biodefense, and microelectronics on micrometric scales. Microfluidics events include presentations on innovative device designs, new materials, and fabrication techniques. Sessions will focus on applications in biomedical fields, such as diagnostics, drug delivery, and environmental monitoring.

related conferences:

Micro/Nanofluidics Research and Advances| Organs-on-chips |Microfabrication Technologies| Electrochemistry and microfluidics| Digital microfluidics |Microfluidics in Pharmacy | Microfluidics and Nanofluidics 2024 | Point of Care Technologies| Microfluidics Conferences | | Microfluidics Events|

Nanofluidics conference is the study and application of fluid dynamics at the nanoscale, where unique features develop due to the small size. This field explores the manipulation of microscopic fluid volumes within nanostructures, with applications including drug delivery, molecular diagnostics, and energy systems, providing novel solutions across multiple scientific fields.

The goal of Nanofluidics conference is to manipulate fluids in nanoscale channels, allowing for precise control of molecule and ionic mobility. This field enables advanced biosensor applications, such as assessing single molecules, delivering medications, and powering energy systems, with outstanding sensitivity and effectiveness. Single-molecule analysis, biosensing, and energy conversion are among its most important uses. This discipline combines advanced fabrication processes with computational modeling to drive innovation in medical diagnostics, environmental monitoring, and nanotechnology.

Related conferences : 

Nanofluidics Research | Microfluidic Chip | Microfluidics in Nano-medicine | Nano-Materials and Nano-Technology | Complex Fluid Interfaces | Fluidic Micro Actuators | Microfluidics and Coagulation Biology| Nano-fluidics Conferences | Microfluidics and Nano fluidics Conference |

 

Micro/Nano Fabrication Techniques are ways for creating structures and electronics on microscopic and nanoscopic scales. Photolithography, etching, and depositing are examples of advanced manufacturing technologies used at the micro and nano scales to create complex structures. These techniques are critical for creating microchips, sensors, and nanodevices, which drive advancements in electronics, biotechnology, and material science.These fabrication processes, according to a Microfluidics Conference, are critical for developing microfluidic devices that offer accurate fluid control and analysis at the microscale, hence promoting advancements in diagnostics, environmental monitoring, and lab-on-a-chip technologies.

Related conferences:

Electrochemistry and microfluidics | Acoustic Droplet Ejection |Lab-On-A-Chip Technology | Microfluidics in Pharmacy | Bio-MEMS/NEMS and Chips |Microfluidic Biotechnology

Lab-on-a-chip-technology

Lab-on-a-chip technology reduces laboratory procedures to a single chip, allowing for quick and efficient analysis of small samples. The research focuses on novel microfluidic device designs,sample preparation, mixing, separation, and detection procedures, making diagnostics, drug research, and environmental surveillance more convenient and cost-effective. Key developments include the creation of portable, high-sensitivity sensors for medical and environmental applications, as well as the use of artificial intelligence for data interpretation. Emerging trends include 3D-printed electronics and paper-based chips, which provide affordable and adaptable solutions. This technology boosts the capability of point-of-care testing, quick diagnostics, and real-time monitoring in a variety of sectors.

Related conferences: 

Electrochemistry and microfluidics | Acoustic Droplet Ejection |Lab-On-A-Chip Technology | Microfluidics in Pharmacy | Bio-MEMS/NEMS and Chips |Microfluidic Biotechnology


Nanotechnology and nanomaterials involve modifying matter at the atomic and molecular levels to create materials with distinct features and applications. These developments are used in electronics, medicine, energy storage, and environmental remediation, delivering benefits such as increased strength, conductivity, and drug delivery capabilities, thereby revolutionizing many industries. This field’s research focuses on developing nanomaterials with certain properties, such as improved strength, conductivity, or reactivity. Nanoparticles for medicine delivery, nanoscale coatings for increased durability, and nanocomposites for better electronics are all important areas of focus. Nanostructured materials for renewable energy, environmental cleanup, and sensors are among the latest innovations. The incorporation of nanotechnology into different industries promises breakthroughs in medical, electronics, and materials science, owing to the unique properties of nanomaterials.

Related conferences:

NanoTech 2024 | Nanofluidics Research | Microfluidic Chip | Microfluidics in Nano-medicine | Nano-Materials and Nano-Technology | Complex Fluid Interfaces | Fluidic Micro Actuators | Microfluidics and Coagulation Biology

Clinical diagnostics

Clinical diagnostics is the detection of diseases and conditions using patient samples, and  it includes a variety of procedures such as laboratory tests (e.g., blood, urine, and genetic tests), imaging techniques (e.g., X-rays, MRIs, and CT scans), and point-of-care tests (e.g., quick infections or glucose levels).These technologies allow for early disease detection, specific treatment plans, and therapy effectiveness evaluation, resulting in better patient outcomes. Advanced diagnostics use technology like molecular diagnostics, imaging biomarkers, and personalized medicine to provide precise, fast, and tailored patient care. Clinical diagnostics innovations aim to enhance illness identification, treatment efficacy, and patient outcomes by including early detection, tailored medicines, and real-time monitoring.

Related conferences: 

Microfluidics in Drug Delivery and Formulations | Microfluids in Nano-medicine |  Microfluidic Biotechnology | Microfluidics Organs on chips| Bio-MEMS/NEMS and Chips   

Microfluidics research & advances

Microfluidics is the description and investigation of apparatuses that manipulate or measure minuscule volumes of fluid, smaller than a droplet. Advanced research is the focus of microfluidic conferences, and the devices used in these studies feature micro-channels that range in size from submicron to a few millimeters. Human hair is around 100 microns thick in comparison. In the biological sciences, microfluidics has been widely used to conduct regulated experiments more quickly and at a lower cost. Microfluidics is used in Lab-on-a-Chip devices for applications. Microfluidics events include presentations on innovative device designs, new materials, and fabrication techniques. Sessions will focus on applications in biomedical fields, such as diagnostics, drug delivery, and environmental monitoring.

Related conferences:

Micro/Nanofluidics Research and Advances| Organs-on-chips |Microfabrication Technologies| Electrochemistry and microfluidics| Digital microfluidics | | Lab-On-A-Chip Technology| Nanotechnology Events | Microfluidics Events|

Bio MEMS/NEMS

Advanced biomedical applications, including drug delivery systems, implantable sensors, and diagnostic devices, are made possible by the integration of mechanical, electrical, and biological components at the micro and nanoscales through the use of bio-MEMS and NEMS. Precision medicine and overall healthcare outcomes are improved by these innovations.

MEMS is transforming drug delivery, monitoring, detection, and diagnostics, among other medical applications. To develop physical, biological, and chemical sensors, NEMS frequently combines transistor-like nanoelectronics with mechanical actuators, pumps, or motors.

Related conferences: 

Electrochemistry and microfluidics | Acoustic Droplet Ejection |
Lab-On-A-Chip Technology | Microfluidics in Pharmacy | Bio-MEMS/NEMS and Chips 

 

 

 

Acoustic droplet ejection

An advanced liquid handling technique called Acoustic droplet ejection (ADE) transfers microscopic fluid droplets without physical touch by using concentrated sound waves. ADE ensures accuracy and low sample loss by producing accurate acoustic waves that can expel droplets from a liquid’s surface in amounts as small as picoliters. In fields like drug development, genomics, proteomics, and high-throughput screening that demand extreme precision, this method is extremely helpful. ADE is essential to contemporary laboratory automation because of its non-contact nature, which lowers the possibility of cross-contamination and permits the handling of a variety of liquids.

Related conferences

Microfluidics and Coagulation Biology | High-Throughput Processing and Analysis| Fluidic Micro Actuators | Lab-On-A-Chip Technology

 

Fluidic microactuators & mixing

Microfluidic systems require fluidic microactuators and mixing in order to precisely control fluid movement and interaction at the microscale. Devices known as fluidic microactuators use tiny forces, such as thermal effects, electrostatic forces, or pressure, to alter fluids. They are essential for operating valves, directing fluid flow, and facilitating intricate fluidic processes inside microchannels.

Related conferences 

Point of Care Technologies|Complex Fluid Interfaces | Clinical Diagnostics | Microfluidic Biotechnology

Novel microsampling, separation & detections

Analytical methods are being revolutionized in several scientific domains by new technology for Novel microsampling, separation, and detections. Tiny biological or chemical samples can be collected using microsampling, which reduces invasiveness and maintains the integrity of the sample. Precise extraction of particular components from complex mixtures is made possible by sophisticated separation techniques like electrophoresis and microfluidic chromatography. These microsamples can be accurately analyzed thanks to the high sensitivity and specificity of state-of-the-art detection devices, such as biosensors and microfabricated detectors. These developments are propelling breakthroughs in environmental monitoring, drug development, diagnostics, and other vital applications by improving the effectiveness, speed, and accuracy of analytical techniques.

Related conferences

Nano-Materials and Nano-Technology |Microfluidics in Nano-medicineMicrofluidics in Drug Delivery and Formulations  |Nanofluidics Research |Microfluidics Research and Advances

 

Bioanalytical micro/nanodevices

Bioanalytical micro/nanodevices are sophisticated tools built at the microscopic and nanoscopic dimensions to perform precise biological and chemical tests. These devices use tiny components to detect and measure biomolecules, allowing for high-throughput and sensitive tests. Their uses vary from diagnostics and drug discovery to environmental monitoring, providing fast, precise findings with small sample amounts. Innovations in this discipline are propelling personalized treatment and deepening our understanding of complicated biological systems.

Related conferences

Microfluidics in Drug Delivery and Formulations | Microfluidic Chip |Nanofluidics Research |Microfluidics Research and Advances

 

 

 

 

 

Microfluidics in nanomedicine is the use of small fluid channels to modify nanoscale particles and biological samples. This technique combines nanoscale materials and fluid dynamics to provide precise control over medication delivery, diagnostics, and therapeutic applications. Microfluidic systems improve the efficacy of nanoparticle-based treatments by enabling precise delivery, fewer side effects, and real-time monitoring. These breakthroughs are promoting personalized medicine and changing the way we address difficult medical problems.

Related conferences

Microfluidics and Coagulation Biology | High-Throughput Processing and Analysis| Fluidic Micro Actuators | Lab-On-A-Chip Technology

 

 

Point of care technologies

Point-of-care technologies (POCT) are portable, user-friendly diagnostic instruments intended for use at or at the point of patient care. These devices allow for rapid, on-the-spot testing, offering immediate findings for a wide range of disorders, including infectious infections and chronic illnesses. POCT improves clinical decision-making, minimizes the need for centralized lab testing, and improves patient outcomes by allowing for prompt treatment, particularly in resource-limited settings or during emergencies.

Related conferences

Electrochemistry and microfluidics | Acoustic Droplet Ejection |
Lab-On-A-Chip Technology | Microfluidics in Pharmacy | Bio-MEMS/NEMS and Chips |Microfluidic Biotechnology

Biosensors & bio-sensing technologies

Biosensors and bio-sensing technologies are novel devices that detect and quantify biological substances, converting their existence into electrical signals for study. These technologies, which combine biological recognition features with transducers, find use in healthcare, environmental monitoring, food safety, and biotechnology. They provide high sensitivity, specificity, and real-time monitoring, allowing for early disease identification, tailored medication, and pollution tracking, improving our ability to successfully manage health and environmental concerns.

Related conferences

Microfluidics in Drug Delivery and Formulations | Microfluids in Nano-medicine |  Microfluidic Biotechnology | Microfluidics Organs on chips| Bio-MEMS/NEMS and Chips   

Microfluidic chip

Typically, the process of creating microfluidic chips involves creating tiny wells or grooves on a layer’s surface, which are then encased by techniques for a brief layer to create micro-channels or chambers. Microfluidic Chip focuses on the sealing of channels as a means of appropriately reinforcing layers. Depending on the choice of material, the channels are created via small-scale machining, hot emblazoning, infusion shaping, or sensitive lithography. Although there are real obstacles in terms of least element estimation, surface roughness, optical clarity, and material selection, 3D printing could be used to supply microfluidic chips.

Related conferences:

Microfluidics in Drug Delivery and Formulations | Microfluids in Nano-medicine |  Microfluidic Biotechnology | Microfluidics Organs on chips| Bio-MEMS/NEMS and Chips   

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Frequently Asked questions (FAQ)'s of Microfluidics and Nanofluidics conferences

These conferences cover the most recent advances in fluid manipulation at the microscale, including lab-on-a-chip technologies, microfabrication processes, and applications in medical diagnostics, chemical analysis, and environmental monitoring.

Researchers, engineers, industry specialists, and anyone interested in the most recent developments in microfluidics and nanofluidics technology should attend to share ideas, present research, and learn about new advancements.

The theme of the 2024 conference is “Advancements in microfluidic applications bridging the gap between lab & industry” focusing on the most recent research, technical innovations, and future prospects in these fields.

The conference will take place on November 25-26, 2024, at the Hampton by Hilton Paris Clichy, 7 Boulevard du General Leclerc, Clichy, 92110 France.

Attendees may expect keynote addresses from top experts, technical sessions highlighting new research, and panel discussions on current issues and future prospects in microfluidics and nanofluidics technologies.

 

You can download the Microfluidics Conference brochure from the official website under the “program” section. If you can’t find it, contact the organizers via email or their contact page.

The conference will feature keynote speeches from leading experts in microfluidics and nanofluidics technologies. The speakers are Albert van den Berg, Aurimas Vrubliauskas, Bernd Abel, Hiroaki Suzuki, V.B.Svetovoy. These prominent speakers will provide insights into recent advances, current difficulties, and future perspectives in the field.