Curbing the Spread of Coronaviruses Starts in About a Minute
Transforming the way viruses are detected, diagnosed and treated.
Conventional tests for viral infection, such as genetic-based testing or lateral flow assay, have significant limitations. They can be expensive and take hours–sometimes days–to deliver results, and many require specialized labs and special chemical substances, known as re-agents, in order to be processed. These biochemical processes are known to produce false negative or false positive results in some cases, and most only achieve sensitivity of less than 80%, even when there is a high CT value.
The ThEA Platform, on the other hand, uses cost-effective, specially-designed glass to create resonances at specific points in the 1 to 2 terahertz range. By tuning the device to specific points along this spectrum, the platform can attract only the exact genetic material within a virus that responds to that unique frequency.
This process is not only more accurate, with 99% sensitivity at = or < CT36, it requires no chemical re-agents which reduces the chances of error due to environmental factors. In normal times, this is a huge convenience, not to mention a massive cost saver. But in times of mass viral outbreak, this can be the difference between life and death.
Curbing the Spread of Coronaviruses Starts in About a Minute
Transforming the way viruses are detected, diagnosed and treated.
Conventional tests for viral infection, such as genetic-based testing or lateral flow assay, have significant limitations. They can be expensive and take hours–sometimes days–to deliver results, and many require specialized labs and special chemical substances, known as re-agents, in order to be processed. These biochemical processes are known to produce false negative or false positive results in some cases, and most only achieve sensitivity of less than 80%, even when there is a high CT value.
The ThEA Platform, on the other hand, uses cost-effective, specially designed glass to create resonances at specific points in the 1 to 2 terahertz range. By tuning the device to specific points along this spectrum, the platform can attract only the exact genetic material within a virus that responds to that unique frequency.
This process is not only more accurate, with 99% sensitivity at = or < CT36, it requires no chemical re-agents which reduces the chances of error due to environmental factors. In normal times, this is a huge convenience, not to mention a massive cost saver. But in times of mass viral outbreak, this can be the difference between life and death.
Smarter Cities with Environmental Monitoring
Beyond smart. We help make cities downright brilliant.
The ability to see exactly when a pollutant increases beyond a safe limit is the most important measure a city can have to enable it to take action before the problem impacts lives and becomes too difficult to correct. Today’s environmental sensing solutions and standard air quality sensors only tell part of the story. They measure less parts per billion (ppb) and use linear algorithms that can only guess at actual concentrations of compounds, such as pollutants, in the air we breathe. RAM Global ultrafield environmental monitoring quantum sensors not only monitor multiple compounds at once from a single sensor, they can detect much smaller changes in concentrations that today’s solutions.
The surface of our IoT Enabled Air Quality and Environmental Monitoring Sensors is functionalized with different kinds of nanoparticles that are chemically tuned for specific target molecules, such as CO2. Considerably lower in cost than standard air quality sensors. And with a small form factor, our gas sensors are easy to install and require very little space.
Smarter Cities with Environmental Monitoring
Beyond smart. We help make cities downright brilliant.
The ability to see exactly when a pollutant increases beyond a safe limit is the most important measure a city can have to enable it to take action before the problem impacts lives and becomes too difficult to correct. Today’s environmental sensing solutions and standard air quality sensors only tell part of the story. They measure less parts per billion (ppb) and use linear algorithms that can only guess at actual concentrations of compounds, such as pollutants, in the air we breathe. RAM Global ultrafield environmental monitoring quantum sensors not only monitor multiple compounds at once from a single sensor, they can detect much smaller changes in concentrations that today’s solutions.
The surface of our IoT Enabled Air Quality and Environmental Monitoring Sensors is functionalized with different kinds of nanoparticles that are chemically tuned for specific target molecules, such as CO2. Considerably lower in cost than standard air quality sensors. And with a small form factor, our gas sensors are easy to install and require very little space.
Accelerating Scientific Discoveries with Liquid Biopsy
We’re delivering big insights into tiny cells to improve clinical care.
The ability to use bodily fluids, especially blood, represents a non-invasive and easily repeatable way to analyze health, test for disease, show effects of treatment or show progression of critical illness. It also can detect biomarkers, which can be crucial in making treatment decisions for diseases such as cancer and provide a safer way to perform IV diagnostics. However, today’s methods for liquid biopsy are imperfect and often require different levels of fluid dilution, requiring larger volume of samples, and they don’t often produce fast results. We have developed Double Ring Resonator Optical-Plasmonic Sensors that detect biomarkers and other compounds in blood, urine and bodily fluids that perform better and more efficiently than standard solutions. Because they work with whole blood, they eliminate the need to produce different samples with varying levels of dilution. And the results are typically faster. The ability to improve the way liquid biopsies are conducted represents a significant opportunity to improve clinical care and accelerate new scientific discoveries and much-needed therapies. Learn More About our Electronic and ELISA Cell Sensors
Accelerating Scientific Discoveries with Liquid Biopsy
We’re delivering big insights into tiny cells to improve clinical care.
The ability to use bodily fluids, especially blood, represents a non-invasive and easily repeatable way to analyze health, test for disease, show effects of treatment or show progression of critical illness. It also can detect biomarkers, which can be crucial in making treatment decisions for diseases such as cancer and provide a safer way to perform IV diagnostics. However, today’s methods for liquid biopsy are imperfect and often require different levels of fluid dilution, requiring larger volume of samples, and they don’t often produce fast results. We have developed Double Ring Resonator Optical-Plasmonic Sensors that detect biomarkers and other compounds in blood, urine and bodily fluids that perform better and more efficiently than standard solutions. Because they work with whole blood, they eliminate the need to produce different samples with varying levels of dilution. And the results are typically faster. The ability to improve the way liquid biopsies are conducted represents a significant opportunity to improve clinical care and accelerate new scientific discoveries and much-needed therapies. Learn More About our Electronic and ELISA Cell SensorsPowerful, Full-body, Single Point Monitoring with qCRM
Transforming the way human health is detected, analyzed and treated.
Today, the critical health vitals needed in many healthcare situations are captured across multiple, expensive and often cumbersome devices and machines. The most reliable data are only available in outpatient settings, and they do not look at the causal relationships of several biometric signals, such as heart rate, breath rate, blood pressure, and organ function.
Our ultrafield Biometric Sensors change the traditional paradigm by digitizing the entire body at once. Clinically validated and small enough to fit in wearable devices such as a smart watch, they enable continuous, full body monitoring of multi-parameter, medical-grade biometrics through a single-point sensor–at home or in almost any clinical environment.
Extremely powerful and exponentially more sensitive than current monitoring devices or equipment, they can securely produce hundreds of times more data in real-time—giving them the power to transform clinical diagnostics and many aspects of healthcare.
Powerful, Full-body, Single Point Monitoring with qCRM
Transforming the way human health is detected, analyzed and treated.
Today, the critical health vitals needed in many healthcare situations are captured across multiple, expensive and often cumbersome devices and machines. The most reliable data are only available in outpatient settings, and they do not look at the causal relationships of several biometric signals, such as heart rate, breath rate, blood pressure, and organ function.
Our ultrafield Biometric Sensors change the traditional paradigm by digitizing the entire body at once. Clinically validated and small enough to fit in wearable devices such as a smart watch, they enable continuous, full body monitoring of multi-parameter, medical-grade biometrics through a single-point sensor–at home or in almost any clinical environment.
Extremely powerful and exponentially more sensitive than current monitoring devices or equipment, they can securely produce hundreds of times more data in real-time—giving them the power to transform clinical diagnostics and many aspects of healthcare.
Shining a Brighter Light Downhole with Ultrafield Sensing
Bringing better data to the surface with ultrafield sensors for oil logging.
The ability to fully capture an array of physical information about the material in natural resource wells, such as oil and gas, is crucial to ensure the effective, stable operation of the well and the lift systems–not just to minimize downtime, but also to safely optimize production. However, many of today’s downhole sensors do not capture data at the highest level of accuracy possible and do not detect and analyze an array of information at one time in a single sensor.
Our ultrafield UV optical sensors perform advanced hyperspectral chemical analysis of materials and compounds as well as measure pressure, fluid flow, temperature, vibration, and fluid holdup. They are extremely durable, small in size and operate in higher temperatures, making them ideal for the conditions of industrial wells.
These sensors have extreme selectivity of narrow bandwidths of 5nm-10nm, and each optical pixel can be tuned to specific wavelength and work at ultra-high speeds up to picosecond rise-time. They have the power to greatly improve productivity and effectiveness of many downhole applications and oil well logging.
Shining a Brighter Light Downhole with Ultrafield Sensing
Bringing better data to the surface with ultrafield sensors for oil logging.
The ability to fully capture an array of physical information about the material in natural resource wells, such as oil and gas, is crucial to ensure the effective, stable operation of the well and the lift systems–not just to minimize downtime, but also to safely optimize production. However, many of today’s downhole sensors do not capture data at the highest level of accuracy possible and do not detect and analyze an array of information at one time in a single sensor.
Our ultrafield UV optical sensors perform advanced hyperspectral chemical analysis of materials and compounds as well as measure pressure, fluid flow, temperature, vibration, and fluid holdup. They are extremely durable, small in size and operate in higher temperatures, making them ideal for the conditions of industrial wells.
These sensors have extreme selectivity of narrow bandwidths of 5nm-10nm, and each optical pixel can be tuned to specific wavelength and work at ultra-high speeds up to picosecond rise-time. They have the power to greatly improve productivity and effectiveness of many downhole applications and oil well logging.
Brewing Better Beer with Liquid Chemical Sensing
Quality comes to a head with ultrafield sensors for the beverage industry.
Successful production of beer, wine and spirits comes down to quality and consistency. If just one aspect is off, an entire batch can be ruined. Protecting the brewmaster’s investment in ingredients, production time and the future revenue from the batch requires multiple parameters to be accurately detected and analyzed at once..
Our ultrafield liquid chemical sensors and terahertz contactless chemical analyzers do just that. The liquid chemical sensors detect dissolved oxygen, pH, CO2 and other compounds with up to 50x more sensitivity than today’s sensing solutions. They also analyze pressure and flow to help ensure quality. The terahertz sensors provide an excellent way to monitor beer and other beverages after they are produced through contactless, non-damaging detection of compounds within the bottle.
The ability to dramatically improve the way quality and consistency is measured represents an optimal to get the best out of every batch and to improve the financial yield as well.
Brewing Better Beer with Liquid Chemical Sensing
Quality comes to a head with ultrafield sensors for the beverage industry.
Successful production of beer, wine and spirits comes down to quality and consistency. If just one aspect is off, an entire batch can be ruined. Protecting the brewmaster’s investment in ingredients, production time and the future revenue from the batch requires multiple parameters to be accurately detected and analyzed at once.
Our ultra-field liquid chemical sensors and terahertz contactless chemical analyzers do just that. The liquid chemical sensors detect dissolved oxygen, pH, CO2 and other compounds with up to 50x more sensitivity than today’s sensing solutions. They also analyze pressure and flow to help ensure quality. The terahertz sensors provide an excellent way to monitor beer and other beverages after they are produced through contactless, non-damaging detection of compounds within the bottle.
The ability to dramatically improve the way quality and consistency is measured represents an optimal to get the best out of every batch, and to improve the financial yield as well.
The configurability of our ultrafield sensors is endless. Discuss Your Application with Us.
RAM Global R&D Headquarters
Amerikastr. 15
66482 Zweibrücken, Germany
Office: +49 6332 5692110
Email: info@ramglobal.com
RAM Global Business Headquarters
12 Marina Blvd #17-01, Singapore 01882
Office: +65 6809 5121
Email: info@ramglobal.com