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Oak Analytics
Agoura Hills, United States
11-50 Employees
2015
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Product
Raman Spectroscopy
Tornado Spectral Systems
Old Toronto, Canada
11-50 Employees
2010
Founded in 2013, Tornado Spectral Systems designs, manufactures and sells chemical analysis systems based on Raman spectroscopy. To deliver superior Raman spectrometers with its proprietary HTVS technology which eliminates photon loss and delivers better sensitivity and faster measurements. Our purpose is to provide innovative Raman technology alongside unparalleled customer success by offering in-situ process solutions. Innovative High Throughput Virtual Slit (HTVS™-enabled) spectrometer improves the throughput of a dispersive spectrometer. Integrated spectra processing enables stand-alone operation for continuous manufacturing. Tornado – A Bruker Company (Tornado) is the global provider of chemical analysis & measurement systems for Raman spectroscopy. Tornado’s High Throughput Virtual Slit (HTVS™) technology provides unequivocal photon power to tackle the most difficult Raman measurements and overcome these challenges, thus enabling greater customer success. Tornado’s non-destructive, real-time measurement solutions offer numerous benefits for established analytical practice and facilitate the broader application of Raman methods for pharmaceutical, petrochemical, biotech, and other applications.
Core business
Industries that Benefit from Raman Spectroscopy
Warsash Scientific Pty Ltd
Sydney, Australia
1-10 Employees
1976
Warsash Scientific is a leading supplier of scientific instruments and components serving Australian and New Zealand research, defence and industry since 1976. Over 45 years Warsash Scientific has built a network of suppliers, all leaders in their fields, providing unique technologies across a broad spectrum of photonics-related applications. Warsash Scientific is a leading supplier of scientific instruments and components serving Australian and New Zealand research, defence and industry. With expertise in physics, forensics, lasers and photonics; extensive product and application knowledge; and an awareness of current innovations and capabilities; Warsash Scientific is a reliable technology partner and consultant. Founder Bill McFadden named our company after a small English coastal village, Warsash (the ash of wars). Managing Director Derek Huxley joined Warsash Scientific in 1993, specialising in Optoelectronics, and since then the company has expanded into other disciplines of Research & Industry, Forensics and Safety & Security. The company has continued to grow to become a leading Australian provider of state-of-the-art scientific equipment from suppliers worldwide. There is no excerpt because this is a protected post.
Core business
Raman Spectroscopy
FabNS
Belo Horizonte, Brazil
1-10 Employees
2020
The Porto is a novel and versatile platform for micro- & nano-Raman and luminescence spectroscopies, based on a scanning near-field optical microscope (SNOM), achieving diffraction-limited optical spatial resolution in the micro configuration, and 10 nm in the nano configuration, in ambient conditions. Our novel patented TERS nanoantennas operates in a resonant configuration, being able to provide unprecedented spectral enhancements. Have direct access to our nanomaterial characterization capabilities and incorporate FabNS' know-how directly into your R&D process involving graphene or other nanomaterials.
Core business
Tip-enhanced Raman spectroscopy that works
Optimal Biotech Group LLC
Belmont, United States
1-10 Employees
2008
We are proud representatives of Mettler Toledo Process Analytics, Microfluidics, ABER Instruments, Agilitech, Flownamics, ILC Dover, Magnetrol and Tornado Spectral Systems. Our mission is simple: we provide measurement solutions as a required asset for your manufacturing process. Optimal Biotech Group, LLC is an authorized manufacturer’s sales representative serving the biotechnology and pharmaceutical market for Northern California and the Pacific Northwest. Over 20 years of experience in the health sciences field. Previous position involved working with Genentech Vacaville as a manufacturing technical specialist in Manufacturing Sciences Cell Culture; supported the small scale labs as one of the representatives for the technology transfer processes, involved in the improvement and development of small scale lab operations, processes, and equipment. A marketing professional with 13+ years of experience, Lorraine develops and executes a primarily online strategy to increase Optimal Biotech Group’s visibility within the bioprocessing industry. We strive to make process measurement solutions integrate seamlessly with your R&D, pilot, and manufacturing operations so your business can grow.
Product
Raman Spectroscopy Instrumentation
Flash Photonics Inc.
Redmond, United States
1-10 Employees
2016
Partnering with multiple industry-leading manufacturers to bring customers the most innovative measurement-capable devices for optical monitoring and spectroscopy (including raman, LIBS, photoacoustic, fluorometry, photometry, XRF, UV/Vis and infrared systems), Flash Photonics provides expert fit-for-purpose atomic, molecular and material property measurements. Its mission is to deliver the best, most cost-effective solutions to customers’ analysis challenges. Through years of strategic mergers and acquisitions, Salvo Technologies has become an industry-leading and vertically integrated photonics solutions provider that specializes in custom sensing and imaging platforms. The leaders at Flash Photonics are experts at complex negotiations and help clients handle OEM manufacturing and patent licensing, funding, and full acquisitions. Flash Photonics offers a wide selection of optical sensing technologies. We sell pocket-size sensors you can oder in bulk for consumer products to large, spectroscopy systems for researchers and manufacturers. Watch for us at Photonics West—we are excited to share the changes!
Product
Raman Spectroscopy Systems
HORIBA
Kyoto, Japan
5001-10000 Employees
1945
The HORIBA Group of worldwide companies provides an extensive array of instruments and systems for applications ranging from automotive R&D, process and environmental monitoring, in-vitro medical diagnostics, semiconductor manufacturing and metrology, to a broad range of scientific R&D and QC measurements. HORIBA Automotive provides innovative applications and insights, advanced automotive validation and…. HORIBA Medical designs, develops and distributes worldwide, in vitro diagnostic systems mainly…. HORIBA Process and Environmental provides a wide range of technologies to measure air, water and…. HORIBA Semiconductor have developed a line-up of fluid control, vaporization, analytical equipment…. HORIBA Scientific offers 200 years of experience in developing high-performance scientific…. HORIBA water and liquid analysis technology is based on 75 years’ experience since the foundation of…. Since establishing HORIBA RADIO LABORATORY in Japan in 1945, HORIBA has grown as an R&D company and engaged in international operations, making the most of its experiences and encounters with people along the way.
Product
What is Raman Spectroscopy?
Vector Controls, LLC
Plano, United States
51-100 Employees
2012
We are passionate about our “best in class” portfolio of products we represent and offer complete, turnkey solutions. We are flexible, dynamic, effective and efficient in our actions for the benefit of our partners and customers. We are leading experts in our field and present differentiated options through our subject matter experts and network of engineering and integration partners offering complete turnkey solutions. We are passionate in our commitment to find the best possible result and deliver a world class customer experience. We are here to support you today, tomorrow and in the future regardless of the challenging environment — let’s keep moving forward together. We are pleased to offer technical services for products and solutions that we provide to keep your operations running smoothly and efficiently. Vector Controls and Automation Group is a leading manufacturing representative, distributor, and valued partner for your application solution. Continued successes bring additional milestones and in 2020 Vector CAG and manufacturing partner Endress+Hauser will move into their new Gulf Coast Regional Center Campus.
Product
Endress+Hauser – Raman Spectroscopy
IRIS Technology Solutions
Cornellà de Llobregat, Spain
51-100 Employees
2007
Thanks to our vision, and to the talent and hard work of our multidisciplinary team-with analytical, design, production and integration capabilities-, we secure a niche positioning as an innovative R&D and engineering service provider bridging the gap between University and Industry. As a company, we are grateful to our team, to our clients and to the Open Innovation ecosystem in Europe, for the ability to remain at the forefront of the state-of-the-art for ‘creating your competitive edge’. We are leaders in the manufacture and implementation of photonics technologies for industry. To become a world’s leading manufacturer of photonics and artificial intelligence solutions by dedicating our passion and talent to push the limits of technology. IRIS is founded in Barcelona as an advanced engineering company and starts on a journey to scale up promising process optimisation technology and solutions for improving industry. IRIS expertise in Key Enabling Technologies position the company at the top ten in Spain. IRIS successfully delivers on numerous R&D projects in the areas of Process Analytical Technologies (PAT), Photonics, IoT and ICTs, scaling up challenging technologies, generating knowhow and key patents for our business, and contributing to outstanding scientific publications. VISUM® delivers a powerful value proposition to industry: bringing affordable and reliable laboratory analytical capability into manufacturing lines (Lab2Line) and right along the value chain (Lab2Chain) for real-time process monitoring and quality inspection purposes.
Core business
We provide real-time monitoring solutions with NIR technology, Raman spectroscopy, hyperspectral technology and machine vision for the food, pharmaceutical, chemical, plastics and wood industries, among others.
Veritie Group
West Oxfordshire, United Kingdom
1-10 Employees
-
We are working with clinicians and Key Opinion Leaders in Oxford and Birmingham to develop and deliver easy-to-use diagnostic devices that will transform the cost, speed and deployability of In Vitro Diagnostics to meet critical unmet needs. We are also working with the UK National Physical laboratory on novel methods of calibration. We are always on the look-out for creative, driven and enthusiastic people to join the team. In particular, Surface Enhanced Raman Spectroscopy (SERS) offers enhanced sensitivity compared to ‘traditional’ Raman Spectroscopy, and moreover, the opportunity to ‘tune’ the test to be more sensitive to specific diseases. We believe this will enable target diseases to be rapidly diagnosed from urine at low cost, displacing blood or other tests (cystoscopy, imaging) as a first diagnostic. We focus on enabling testing at the Point-of-Need, although the test could be ‘read’ either locally at a clinic, or in a Central Laboratory. We focus on how to extend the viable test life of urine samples to enable extended periods between the sample being obtained and the test sample ‘read’. We focus on the whole workflow and are already discussing how we will integrate with widely used middleware solutions to disseminate the data.
Core business
Defining ‘molecular fingerprints’ using Surface Enhanced Raman Spectroscopy and Machine Learning enables a step-change in sensitivity, specificity, diagnostic range, cost, and environmental impact.
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about your company results for Raman Spectroscopy
Country with most fitting companies | United States |
Amount of fitting manufacturers | 1891 |
Amount of suitable service providers | 1294 |
Average amount of employees | 11-50 |
Oldest suiting company | 1958 |
Youngest suiting company | 2014 |
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Raman Spectroscopy is a non-destructive chemical analysis technique that leverages the inelastic scattering of monochromatic light, usually from a laser in the visible, near infrared, or near ultraviolet range, to identify molecular vibrations, rotational, and other low-frequency modes in a system. When photons interact with a molecular system, most scatter elastically (Rayleigh scattering), maintaining the same energy and wavelength. However, a small fraction scatter inelastically, with a change in energy corresponding to energy differences within the molecular vibrational states, known as Raman scattering. This effect provides a distinctive 'fingerprint' for the substance being examined, making Raman spectroscopy invaluable for both qualitative and quantitative analyses. Its applicability spans numerous fields, including chemistry, material science, physics, and biology, facilitating the study of material properties, chemical composition, and interactions. Furthermore, due to its minimal sample preparation requirements and the ability to probe samples through transparent containers, it is particularly useful in analyzing sensitive or hazardous substances. The technique's impact extends to pharmaceuticals, nanotechnology, and forensic analysis, among others, where it aids in the development of new materials, drug formulation and discovery, and the non-destructive analysis of trace evidence. This versatility and the detailed molecular information it provides render Raman spectroscopy a critical tool in advancing research and development across a broad spectrum of scientific disciplines.
1. Non-Destructive Analysis
: Raman spectroscopy is highly valued for its non-invasive nature, allowing the examination of materials without altering or destroying the sample. This characteristic is particularly advantageous in the study of precious, rare, or non-replicable materials across various fields such as art conservation, pharmaceuticals, and materials science.
2. Minimal Sample Preparation
: Unlike many analytical techniques, Raman spectroscopy often requires minimal to no sample preparation. This saves significant time and resources, making it an efficient choice for rapid analysis in environments requiring quick decision-making, such as in-line quality control processes in manufacturing.
3. Chemical and Structural Information
: Raman spectroscopy provides detailed information on the chemical structure, phase and polymorphism, crystallinity, and molecular interactions of a sample. This level of insight is invaluable in chemical analysis, offering a deeper understanding than what is typically possible with other spectroscopic methods.
4. Versatility
: It can analyze a wide range of materials, including solids, liquids, and gases, under various conditions, such as high temperature or pressure environments. This versatility makes it a universally applicable tool across research and industry sectors, including chemistry, physics, biology, and engineering.
5. Spatial Resolution
: Coupled with microscopy, Raman spectroscopy can achieve high spatial resolution, allowing for the mapping of material properties at the microscale. This is particularly useful in the study of heterogenous materials and for understanding the distribution of components within a complex matrix.
While evaluating the different suppliers make sure to check the following criteria:
1. Spectral Resolution
Ensure the supplier offers instruments with the spectral resolution that meets your specific application needs.
2. Software and User Interface
Assess the software for user-friendliness, data analysis capabilities, and compatibility with existing systems.
3. Hardware Quality and Durability
Evaluate the build quality and durability of the spectrometer to ensure long-term reliability and performance.
4. Customization Options
Check if the supplier provides options to customize the instrument according to your research or industrial needs.
5. After-Sales Support and Service
Consider the level of technical and after-sales support provided, including warranty, maintenance services, and customer service responsiveness.
6. Cost-Efficiency
Compare pricing among suppliers, but ensure to weigh the cost against the features, performance, and support services offered.
7. Testimonials and References
Look for customer testimonials and ask for references to gauge the supplier’s reliability and the performance of their spectrometers in real-world applications.
8. Compliance with Standards
Verify that the equipment complies with relevant industry standards and certifications, ensuring quality and safety.
Raman spectroscopy, a powerful tool for material characterization, finds diverse applications across various industries, offering insights into molecular structures and compositions. In the pharmaceutical industry, Raman spectroscopy plays a crucial role in drug development and quality control. It enables the identification of active pharmaceutical ingredients (APIs), ensuring their correct concentration and detecting any impurities. This non-destructive technique allows for rapid in-line monitoring during production, enhancing efficiency and compliance with regulatory standards. The chemical manufacturing sector utilizes Raman spectroscopy for real-time monitoring of chemical reactions and processes. It provides valuable information on reactant concentrations, product formation, and reaction kinetics, facilitating process optimization and safety. This application is vital in industries where precise control over reaction conditions is essential for product quality and yield. In the field of materials science, Raman spectroscopy is employed to characterize various materials, including polymers, ceramics, and composites. It helps in understanding material properties such as crystallinity, phase transitions, and stress/strain effects. This information is crucial for the development of new materials with optimized properties for specific applications, ranging from aerospace to electronics. Lastly, in the environmental sector, Raman spectroscopy aids in the detection and analysis of pollutants and hazardous substances. It allows for the rapid identification of unknown substances and monitoring of environmental conditions, supporting efforts in pollution control and environmental protection. These use-cases illustrate the versatility of Raman spectroscopy as a diagnostic tool across different industries, underlining its importance in advancing product quality, safety, and innovation.
Raman spectroscopy, a non-destructive chemical analysis technique which leverages the vibrational, rotational, and other low-frequency modes in a system, has achieved a high Technology Readiness Level (TRL) across various applications, generally falling between TRL 8 (system complete and qualified) and TRL 9 (actual system proven in operational environment) for most of its established uses. This advanced TRL status is attributed to the technique's robust validation in numerous fields such as pharmaceuticals, material science, and chemical analysis, where it has not only been extensively tested and validated but also integrated into operational environments. The progression to such high TRLs is underpinned by significant technical advancements, including the development of compact, portable Raman spectrometers that have opened new avenues for in-field analysis and real-time diagnostics. Additionally, improvements in laser technology, detection methods, and spectral analysis software have greatly enhanced the sensitivity, specificity, and user-friendliness of Raman spectroscopy systems. These technical enhancements have facilitated the broad adoption of Raman spectroscopy in diverse operational environments, from quality control in manufacturing processes to in situ planetary studies in space missions, thereby reflecting its high maturity and reliability as a diagnostic and analytical tool.
In the Short-Term phase, Raman Spectroscopy is expected to experience significant enhancements in sensitivity and portability. Developments in laser technology and optical components will enable more compact and efficient devices, making Raman spectroscopy more accessible for field applications. These advancements will facilitate rapid, on-site analysis across various industries, including pharmaceuticals, environmental monitoring, and forensic science, thereby expanding its utility beyond traditional laboratory settings. Mid-Term developments will likely focus on integration with artificial intelligence (AI) and machine learning algorithms to improve data analysis and interpretation. This integration will enable the identification and quantification of complex mixtures with higher precision and less human intervention. Additionally, advances in nano-enhanced Raman Spectroscopy, such as tip-enhanced Raman scattering (TERS), will allow for molecular-level imaging and analysis. This capability will be pivotal in nanotechnology, materials science, and biological research, offering insights into molecular structures and dynamics with unprecedented detail. In the Long-Term, we can anticipate the emergence of highly sophisticated, multi-modal spectroscopic techniques that combine Raman spectroscopy with other analytical methods, such as infrared (IR) spectroscopy and mass spectrometry. This convergence will yield comprehensive analytical tools capable of providing holistic insights into the chemical and structural composition of materials. Moreover, the development of quantum-enhanced Raman spectroscopy could revolutionize sensitivity and resolution, enabling the detection of single molecules and subtle changes in molecular structures, which could have profound implications for chemical sensing, diagnostics, and fundamental scientific research.
Some interesting questions that has been asked about the results you have just received for Raman Spectroscopy
What are related technologies to Raman Spectroscopy?
Based on our calculations related technologies to Raman Spectroscopy are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators
Which industries are mostly working on Raman Spectroscopy?
The most represented industries which are working in Raman Spectroscopy are Other, Electronics and Electrical engineering, Biotechnology, Research, IT, Software and Services
How does ensun find these Raman Spectroscopy Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.