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389 · 1 year

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Microfluidic Device

#Microfluidic Device #microfluidic #art #design #device #water #micro #u

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keyto2023 · 1 year

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Keyto Products | High-precision MicrofluidIC & Bonded Manifold

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potsticker1234 · 1 year

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I’m thinking Beatrice would be a kitchen knife nerd given that she throws combat knives. So yeah maybe they have a cheap set of kitchen knives because they’re hiding out in Switzerland on a limited budget, but Bea treats them like her throwing knives and has them as sharp as razors. Maybe one day she’s oogling a really nice butcher knife or chef’s knife but she knows it’s financially irresponsible to buy one. So Ava goes to the local knife maker and strikes up a deal with her charm, and one day Ava comes home with grocery bags from the market. They’re filled with fruits and vegetables and printer paper(?) Ava says that that’s one way to test a knife’s sharpness and presents a very beautiful, very expensive chef’s knife to Beatrice.

#sorry guys we talked about knives in a microfluids class of all things today #thinking deeply about my love of knives and santokus #give me all the domestic Avatrice #warrior nun #Ava Silva #sister beatrice #Avatrice #ava x beatrice #wn #head canon #fic ideas #should I write a chef au

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bpod-bpod · 2 months

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Driving the Tube

Applying advanced microfluidics technology, reveals the role of cells' 'handedness' – a bias for direction of growth – in vessel development

Read the published research article here

Image from work by Haokang Zhang and colleagues

Department of Biomedical Engineering, Rensselaer Polytechnic Institute, Troy, NY, USA

Image originally published with a Creative Commons Attribution 4.0 International (CC BY 4.0)

Published in Science Advances, February 2024

You can also follow BPoD on Instagram, Twitter and Facebook

#science #biomedicine #immunofluorescence #biology #chirality #vascular #vessels #microfluidics #bioengineering

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microscope-world · 6 months

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Microfluidics under the ZEISS Stemi 508 microscope.

#microfluidics #Stemi 508 #Zeiss microscope #stereo microscope

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techninja · 20 days

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Miniaturizing Innovation: Exploring the Microfluidics Market

In the realm of life sciences and healthcare, the Microfluidics market is emerging as a transformative force, enabling researchers and clinicians to miniaturize laboratory processes and revolutionize diagnostics and therapeutics. This article delves into the burgeoning field of microfluidics, its applications in biomedical research and diagnostics, and its potential to reshape the healthcare landscape.

Microfluidics, the science of manipulating fluids at the microscale, offers a versatile platform for a wide range of applications, from drug discovery and genomics to point-of-care diagnostics and personalized medicine. By leveraging the unique physics and mechanics of fluid flow at small scales, microfluidic devices enable precise control over sample volumes, reaction kinetics, and experimental workflows.

The Microfluidics market encompasses an extensive array of technologies, including lab-on-a-chip devices, microfluidic pumps, valves, and sensors, as well as integrated systems for automated sample preparation and analysis. These miniaturized platforms offer numerous advantages over traditional laboratory techniques, including reduced sample and reagent consumption, faster analysis times, and increased sensitivity and throughput.

One of the key drivers propelling the growth of the Microfluidics market is the increasing demand for point-of-care diagnostics and personalized medicine. Microfluidic devices enable rapid and cost-effective analysis of biological samples, allowing for early detection of diseases, monitoring of treatment efficacy, and tailoring of therapies to individual patient needs.

In addition to healthcare applications, microfluidic technologies are transforming the landscape of biomedical research, enabling researchers to conduct experiments with unprecedented precision and scalability. From studying cellular dynamics and microorganisms to exploring complex biological phenomena, microfluidic platforms offer insights that were previously inaccessible using conventional laboratory techniques.

Moreover, the integration of microfluidics with other emerging technologies, such as artificial intelligence (AI) and advanced imaging techniques, is expanding the horizons of biomedical research and diagnostics. By combining microfluidic devices with AI-powered analytics and high-resolution imaging systems, researchers can extract valuable insights from complex biological data with unprecedented speed and accuracy.

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As the Microfluidics market continues to evolve, collaboration between academia, industry, and healthcare providers will be essential to realize its full potential. Addressing challenges such as standardization, scalability, and regulatory compliance will be crucial to accelerating the adoption of microfluidic technologies across diverse applications and settings.

In conclusion, the Microfluidics market represents a paradigm shift in biomedical research and diagnostics, offering a powerful platform for innovation and discovery. With its ability to miniaturize laboratory processes, enhance analytical capabilities, and enable personalized healthcare solutions, microfluidic technology is poised to shape the future of medicine and healthcare delivery, driving advances that benefit patients, researchers, and clinicians alike.

#Microfluidics #Biomedical Research #Lab-on-a-chip #Point-of-care Diagnostics #Life Sciences #Healthcare Technology

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yashmedica · 20 days

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From Bench to Breakthrough: How Next-Gen Technologies are Transforming Labs

The laboratory equipment market is thriving, driven by advancements in next-generation sequencing, microfluidics, and automation

The Powerhouse of Discovery: A Look at the Laboratory Equipment Market From groundbreaking research to routine medical diagnostics, laboratory equipment plays a vital role in healthcare. The global laboratory equipment market is anticipated to reach a staggering USD 84.79 billion by 2030, driven by rising demand for advanced technologies and increasing investments in life sciences research. This…

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#AIdiagnostics #emergingmarkets #laboratoryautomation #laboratoryequipment #laboratoryresearch #labtechnologies #lifesciencetools #microfluidics #nextgensequencing #personalizedmedicine

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keyto2023 · 1 year

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Keyto Miniature Diaphragm Pumps

Keyto diaphragm pumps have outstanding performance, stable and reliable quality. To meet the market demand, our diaphragm pumps are continuous update iteration. We use advanced technology and chemical-resistant materials to dose and aspirate all kinds of liquid and gas, whether neutral or corrosive.

The flow value is from 100ml/min to 8L/min is optional.

Before shipment, we use our independently developed test tools to test all the performance paremeters, such as noise, flow value, pressure, etc.

They are widely used in washing module, vacuum module for medical equipment and analytical instruments.

Types of Miniature Diaphragm Pumps

Metering Pump

Keyto metering pump is a new product developed these years for precision sampling applications, such as the pharmaceutical industry. You can also customize the double-head metering pump.

 High Precision Metering Pump 5JXX

 READ MORE

Mini Diaphragm Liquid Pumps

Keyto's diaphragm pumps are mainly selected through the media to be transported. You can also choose single-head or double-head diaphragm pumps according to the flow rate. This series is about liquid diaphragm pumps.

 Mini Diaphragm Liquid Pump 7121

 Double-head Diaphragm Pump 7122

 READ MORE

Miniature Diaphragm Air Pumps

Keyto's diaphragm pumps are mainly selected through the media to be transported. You can also choose single-head or double-head diaphragm pumps according to the flow rate. This series is about air diaphragm pumps.

 Miniature Diaphragm Air Pump 7101

 Miniature Rolling Pump 7401

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Advantages of Miniature Diaphragm Pumps

01

Dispensing and dosing liquids mechanically, automatically, no manual operation, least error.

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Super accurate fluid deliveries, precise metering, mix minuscule volumes.

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Long life cycles, Maintenance free.

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High precision and accuracy.

Types of Miniature Diaphragm Pumps

In a microfluidic system, the fluid-driven pump is critical as the power source of fluid.

Normally, microfluidic diaphragm pumps can be divided into pressure pumps, syringe pumps, peristaltic pumps, electroosmotic pumps, and integrated micropumps.

Keyto microfluidic diaphragm pumps contain micro diaphragm pumps, precision metering pumps, micro piston pumps, and programmable syringe pumps. Most Keyto microfluidic diaphragm pumps are for liquid handling of IVD, diagnosis, and laboratory applications. So we selected the micro diaphragm pump and metering pump as a series for the other special scenes.

Characteristics of Miniature Diaphragm Pumps

As the core of the microfluidic system

As the core of the microfluidic system, micropump is the power source of microfluidic transportation and an important symbol of the development level of microfluidic system.

Furthermore, as a critical microactuator

Furthermore, as a critical microactuator, micropump can also be widely used in drug delivery, blood transportation, DNA synthesis, electronic cooling system, micro total analysis system, micro fuel cells, microsatellite propulsion system, and other fields, with huge market application prospects.

#types #of #microfluidic #pumps

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jcmarchi · 22 days

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Exploring the dynamic world of laser welding - Technology Org

New Post has been published on https://thedigitalinsider.com/exploring-the-dynamic-world-of-laser-welding-technology-org/

Exploring the dynamic world of laser welding - Technology Org

In the realm of manufacturing and engineering, advancements in technology continually redefine the boundaries of what is possible. Among these innovations, laser micro welding stands out as a remarkable technique that has revolutionized the way delicate components are joined together.

Laser welding. Illustrative photo. Image credit: Chokniti Khongchum via pexels.com, free license

How laser micro welding works

At its core, laser micro welding is a welding possess that utilizes a focused laser beam to join small components with extreme accuracy. Unlike traditional welding methods that often involve heat-intensive processes, such as arc welding or gas welding, laser micro welding operates on a different principle, harnessing the power of coherent light to melt and fuse materials together.

The different possible applications

One of the key advantages of laser micro welding is its ability to achieve high-quality welds in materials with varying compositions and thicknesses. Whether it’s dissimilar metals, thermoplastics, or even fragile materials like glass or ceramics, laser micro melding offers a level of precision that is unmatched by other, conventional, welding techniques.

The benefits of laser micro welding

One of the most important features of laser micro welding is its minimal heat-affected zone (HAZ). Unlike other welding methods that can cause deformation, warping, or material damage due to excessive heat, laser micro welding minimizes thermal impact on the surrounding area.

Efficiency and cost-effectiveness

Laser micro welding also offers practical benefits. It offers unmatched repeatability and consistency, ensuring that each weld meets the highest standard or quality and reliability. This is critical in industries where precision is non-negotiable, such as medical device manufacturing or aerospace engineering, where the smallest defect could have significant consequences.

The future of laser micro welding

Technology is constantly developing, and so do the potential applications of laser micro welding. From microelectronics and microfluidics to jewelry and dental prosthetics, this technique knows no boundaries. Laser micro welding is on its way to becoming the forefront of innovation.

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nmsc-market-pulse · 2 months

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Innovative Solutions: Microfluidics Market Breakthroughs

In the ever-evolving landscape of modern science and technology, the Microfluidics Market stands out as a beacon of innovation and progress. With its ability to manipulate fluids at the microscale, microfluidics has revolutionized industries ranging from healthcare and pharmaceuticals to biotechnology and diagnostics.

According to a study conducted by Next Move Strategy Consulting, the global Microfluidics Market size is predicted to soar to USD 24.13 billion by 2030, boasting a remarkable compound annual growth rate (CAGR) of 17.1%. This forecast underscores the industry's significant impact and its potential to reshape the future of numerous sectors.

Revolutionizing Industries:

Microfluidics represents a paradigm shift in how we approach fluid handling and analysis. At its core, microfluidic technology enables precise control over small volumes of fluids, typically in the microliter to nanoliter range. This capability has transformative implications across various industries, particularly in healthcare.

Request for a sample, here: https://www.nextmsc.com/microfluidics-market/request-sample

In the realm of healthcare, microfluidic devices have emerged as powerful tools for diagnostic testing, disease monitoring, and personalized medicine. These miniature systems facilitate rapid and accurate analysis of biological samples, offering insights into patient health with unprecedented speed and efficiency. From point-of-care diagnostic devices to lab-on-a-chip platforms, microfluidics is driving advancements that empower healthcare professionals and improve patient outcomes.

Moreover, the pharmaceutical industry is experiencing a renaissance fueled by microfluidic technologies. Traditional drug discovery and development processes are often time-consuming, resource-intensive, and prone to inefficiencies. Microfluidics offers a solution to these challenges by enabling high-throughput screening, precise dosage control, and miniaturized drug delivery systems. By streamlining workflows and reducing costs, microfluidic platforms are accelerating the pace of drug development and bringing life-saving treatments to market faster than ever before.

Inquire before buying, here: https://www.nextmsc.com/microfluidics-market/inquire-before-buying

Key Breakthroughs:

Several groundbreaking advancements have propelled the Microfluidics Market forward, unlocking new possibilities and pushing the boundaries of what's achievable. One of the most notable breakthroughs is the development of organ-on-a-chip platforms. These innovative devices recreate the structure and function of human organs on a miniature scale, providing researchers with unprecedented insights into physiological processes and disease mechanisms. Organ-on-a-chip technology has the potential to revolutionize drug testing, disease modeling, and personalized medicine by offering more accurate and predictive preclinical models.

Furthermore, advancements in microfluidic manufacturing techniques have paved the way for the commercialization of portable and affordable diagnostic devices. These handheld systems enable rapid testing for a wide range of applications, including infectious diseases, chronic conditions, and biomarker detection. By bringing diagnostic testing closer to the point of care, microfluidic devices improve access to healthcare, particularly in resource-limited settings where traditional laboratory infrastructure may be lacking.

Additionally, the integration of microfluidics with other emerging technologies such as artificial intelligence (AI) and machine learning (ML) holds tremendous promise for the future. By leveraging data analytics and automation, microfluidic systems can optimize experimental workflows, analyze complex biological samples, and accelerate scientific discovery. AI-powered microfluidics has the potential to revolutionize drug discovery, biomarker identification, and precision medicine by uncovering hidden patterns and insights in vast datasets.

Future Outlook:

As we look to the future, the Microfluidics Market is poised for continued growth and innovation. Advances in materials science, microfabrication techniques, and digital technologies will further enhance the performance and versatility of microfluidic devices. Graphene, for example, has emerged as a promising material for microfluidic applications due to its exceptional electrical, mechanical, and thermal properties. By incorporating graphene into microfluidic devices, researchers can achieve unprecedented levels of sensitivity, throughput, and reliability.

Moreover, increased collaboration between academia, industry, and government agencies will drive cross-disciplinary research and foster the development of novel applications. The convergence of disciplines such as biology, chemistry, physics, and engineering is fueling innovation in microfluidics, leading to breakthroughs that address some of the most pressing challenges facing society. From advancing our understanding of fundamental biological processes to revolutionizing medical diagnostics and drug development, microfluidics has the potential to shape the future of healthcare and biotechnology.

Expanding Applications: As microfluidics technology continues to mature, its applications are diversifying across a wide range of fields. Beyond healthcare and pharmaceuticals, microfluidic devices are finding applications in environmental monitoring, food safety testing, agriculture, and even aerospace. These expanding applications highlight the versatility and adaptability of microfluidics technology, making it a valuable tool in addressing multifaceted challenges.

Global Accessibility: One of the key advantages of microfluidics is its potential to democratize access to advanced scientific tools and technologies. Miniaturized and portable microfluidic devices can be deployed in remote or resource-limited settings, bringing diagnostic capabilities to underserved communities around the world. This global accessibility has the potential to transform public health initiatives, disease surveillance efforts, and disaster response strategies.

Sustainability: Microfluidics offers inherent advantages in terms of sustainability and resource efficiency. By minimizing sample volumes and reagent consumption, microfluidic systems reduce waste generation and environmental impact compared to traditional laboratory techniques. Additionally, the scalability of microfluidic manufacturing processes enables mass production of devices with minimal material usage, further contributing to sustainability efforts.

Personalized Healthcare: The advent of microfluidic-based personalized medicine promises to revolutionize healthcare by tailoring treatments to individual patients' genetic makeup, physiology, and lifestyle factors. Microfluidic devices enable precise analysis of biomarkers, genetic variants, and drug responses, allowing clinicians to prescribe targeted therapies with optimal efficacy and minimal side effects. This shift towards personalized healthcare has the potential to improve patient outcomes, reduce healthcare costs, and enhance overall quality of life.

Education and Training: Microfluidics is increasingly being integrated into educational curricula at various levels, from undergraduate laboratories to specialized graduate programs. Hands-on experience with microfluidic devices provides students with practical skills in experimental design, data analysis, and interdisciplinary collaboration. Furthermore, microfluidics serves as a platform for teaching concepts in fluid dynamics, biochemistry, and biophysics, fostering a deeper understanding of complex biological systems and technological innovation.

Regulatory Considerations: As microfluidic devices become more prevalent in clinical settings, regulatory agencies are faced with the challenge of establishing guidelines and standards for their safe and effective use. Ensuring the quality, reliability, and performance of microfluidic devices requires collaboration between industry stakeholders, regulatory bodies, and healthcare professionals. Regulatory considerations such as device validation, quality control, and data integrity will play a crucial role in shaping the future of the microfluidics industry and its impact on healthcare delivery.

In conclusion, the microfluidics market is a hotbed of innovation, offering transformative solutions that have the power to change the world. By leveraging breakthrough technologies and embracing interdisciplinary collaboration, the microfluidics industry is paving the way for a future where healthcare is personalized, medicines are tailored to individual needs, and scientific discovery knows no bounds. As we embark on this journey of exploration and discovery, the possibilities are endless, and the potential for impact is profound.

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#market research #market trends #industry analysis #Medical devices #healthcare #microfluidics #global market

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expertmarketresearchreport · 2 months

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Microfluidic Devices Market Size, Share, Price, Trends, Growth, Analysis, Report and Forecast 2024-2032

The global microfluidic devices market size was valued at USD 12.85 billion in 2023, driven by rapid growth in point-of-care testing across the globe. The market size is anticipated to grow at a CAGR of 19.80% during the forecast period of 2024-2032 to achieve a value of USD 65.29 billion by 2032.

Microfluidic Devices Market: Competitor Landscape

• Parker-Hannifin Corporation • Agilent Technologies, Inc. • Standard BioTool

#Microfluidic Devices Market Size #Microfluidic Devices Market Share #Microfluidic Devices Market Forecast #Microfluidic Devices Market

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