Top Companies in Microfluidic Modulation Spectroscopy Market

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Microfluidic Modulation Spectroscopy

Global Microfluidic Modulation Spectroscopy Market: Growth, Outlook, and Competitive Analysis, 2018 – 2030” is the most recent market study released by Credence Research, Inc. The global microfluidic modulation spectroscopy market had a revenue of about USD XX million in 2022. It is predicted to increase at a CAGR of more than 8.20% from 2018 to 2030, reaching about USD XX million.

Market Overview

Microfluidic modulation spectroscopy (MMS) is a technique for characterizing protein secondary structure using infrared spectroscopy. For this purpose, infrared (IR) spectroscopy is well recognized. On the other hand, the lack of automation, repeatability, and dynamic range of detection in conventional platforms such as FTIR have been important difficulties overcome with the invention of microfluidic modulation spectroscopy. The circular dichroism spectroscopy (CD) technique characterizes the secondary structure. Because of the high signal-helix structures in the CD region, a CD is excellent for -helical protein analysis. Secondary structure deconvolution in Fourier-transform infrared spectroscopy (FTIR) is also employed in multivariate analysis techniques such as singular value decomposition, partial least squares, soft independent modeling of class analogies, and neural networks. Research and development and technical progress are driving the microfluidic modulation spectroscopy market. This tool will increase use in medication quality assurance and development processes during the forecast period. Microfluidic modulation spectroscopy also finds use in other fields, such as biotechnology, immunology, and manufacturing. It is intended that final consumers would be persuaded to buy this innovative technology. This tool will increase use in medication quality assurance and development processes during the forecast period. Microfluidic modulation spectroscopy also finds use in other fields, such as biotechnology, immunology, and manufacturing. It is intended that final consumers would be persuaded to buy this innovative technology.

Company Profile

  • RedShift BioAnalytics, Inc.

RedShiftBio has created a unique life sciences platform that combines our experience in high-power quantum cascade lasers with our Microfluidic Modulation Spectroscopy (MMS) technology to give molecular structure measurements that are incredibly sensitive and precise. The safety, effectiveness, and stability of biomolecules and their starting materials are governed by crucial quality characteristics impacted by these structural alterations. Researchers have access to this confluence of technologies through our completely automated Apollo, which is supported by a global network of sales, applications, services, and support personnel to meet all market demands. RedShiftBio is available to support your research and development objectives. It is run by an experienced management team with a track record of success in big instrumentation companies and commercializing revolutionary ideas. The majority of the top biopharmaceutical businesses in the world use our devices.

  • Prager Electronics

Located 14 kilometers north of Vienna, Prager Electronics is a cutting-edge electronics manufacturer headquartered in Wolkersdorf am Weinviertel. Since its inception in 1993, we have focused on distributing various measuring equipment. They have been challenged to meet the client’s requirements. Their highly skilled team will perform the installation, system integration, application consultation, and continuing support for any areas. All necessary servicing and upkeep are performed at predetermined intervals based on the user’s needs and the requirements of the business.

  • Lumedica

Lumedica develops reasonably priced, accurate light-based scientific and medical devices and has a track record of scientific discovery and product development. You can advance and accelerate your life science research thanks to OCT. OCT is a useful method for inspecting samples’ interiors without cutting them open, like ultrasound. Because of its high system costs (between $50,000 and $150K) and enormous footprint requirements, OCT has historically been challenging to deploy. The OQ LabScope from Lumedica offers the life science researcher a brand-new source of image data at a price and form factor that makes OCT practical for biology labs.

  • Insplorion AB

Insplorion is a Swedish CleanTech business established in 2010 as a break-away from Chalmers University of Technology. The unique NanoPlasmonic Sensing (NPS) sensor technology platform is based on the optical phenomena known as plasmonic resonance, which enables quick and precise measurements via optical read-out. The technology has a strong foundation thanks to years of study by Chalmers. To ensure efficiency and safety throughout the hydrogen value chain, they and their clients design a quick and precise hydrogen sensor. Insplorion creates hydrogen sensors and offers scientific equipment for biomolecular and battery research.

  • Spectradyne LLC

Spectradyne has commercialized a ground-breaking technique for measuring sub-micron nanoparticles. Uses include virology, quality monitoring of consumer products, measuring protein aggregation in the drug development business, and characterizing nanomedicine delivery systems. The ARC is an innovative technique that provides precise particle concentration, size, and single-particle, quantitative, fluorescence-based phenotyping in a single device for analyzing biological nanoparticles in complicated materials. The ARC takes advantage of the proven advantages of their leading technology, microfluidic resistive pulse sensing (MRPS), including single-particle, fluorescence-based phenotyping to measure particle subpopulations in complex mixes. Key analytical problems in a wide range of application fields are addressed by the ARC’s novel combination of electrical particle analysis by MRPS and quantitative phenotyping by fluorescence.

  • Fluidion SAS

A patented technological advancement that enables the deployment of metrological capsules with intelligent actions like sample acquisition and measurements at precise times, with no (or very little) electrical consumption, and excellent resistance to hostile environments gave rise to fluidion. Fluidion seeks to develop solutions for water sampling and analysis for various applications, including monitoring deep water and water quality in low-pressure environments (rivers, ponds, coastal waters, and oceanography). To target both national and international development, partnerships, and market expansion, fluidion undertakes a robust R&D programme across a variety of industry segments. To promote public health and enable the preservation of ecosystems, we seek to offer instruments for a pathogen, toxin, and environmental monitoring.

  • Opus12

Berkeley, California-based Twelve is a corporation that develops chemical technology. They create technologies to turn CO2 into money-making compounds, such as plastics and gasoline for vehicles. The business uses metal catalysts to produce synthetic gas (syngas), methane, and ethylene. Dr. Kendra Kuhl, Dr. Etosha Cave, and Nicholas Flanders formally created Twelve in 2015 after launching it in 2014 under Obtainium and renaming it Opus 12. The business was a member of the first Cyclotron Road cohort at Lawrence Berkeley National Laboratory, an incubator program that supports the development of ecologically friendly businesses. Since then, it has received numerous honors, including the Keeling Curve Award, the WW Orcelle Award from Ocean Exchange, the Roddenberry Award, and the Changing the World Award from Forbes.

  • Biolin Scientific AB

Biolin Scientific AB is a global manufacturer of cutting-edge tools and innovative solutions for scientists. Their greatest asset is knowledge, which is crucial to all we do. They overcome obstacles to simplify lab life by working with top colleges and businesses. The surface science professionals who are their customers have the tools they need to advance. Tensiometers made by Attention encourage fresh insights and self-assured choices that lead to smooth production and better goods. It is simple to use, has tremendous versatility, and unmatched automation opportunities because of its user-friendly interface, stylish design, and all-encompassing software.

  • Lightwave Logic

A technology platform company, Lightwave Logic, is working to create next-generation electro-optic polymers that will boost the effectiveness of internet infrastructure by converting data into optical signals. This will enable more data to be transmitted faster and with less power than current methods. Since internet infrastructure is being put under more strain owing to rising online activity than at any other time, the necessity for Lightwave Logic’s unique electro-optic polymers is more pressing than ever. The company is concentrating on the 100 Gbps and 400 Gbps fiber optics communications market’s datacom and telecoms hardware supply chain to include its unique materials into the devices that make up essential parts of the internet infrastructure. The distinctive value proposition of Lightwave Logic has attracted various tier-1 and tier-2 potential strategic partners in the data and telecommunications markets, including ease of manufacture in comparison to conventional solutions.


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