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Improving clinical outcomes and enhancing the patient experience with digital transformation of molecular diagnostics.
Our use of nonlinear optical spectroscopy for molecular analysis opens the door to many improvements within the life sciences from real-time patient monitoring, to dramatic gains in cell biology, and point of care diagnostics.
By providing digital methods that are just as accurate as laboratory chemistry methods, our Life Sciences products enable the advent of real-time molecular analysis and a move from reactive to predictive healthcare practices.
Moving away from a reactive paradigm of health care practice will significantly improve patient outcomes, while decreasing the total cost of healthcare delivery.
Accurate tests that do not require laboratory analysis, or the collection of large samples--result in less time in the waiting room, near painless testing, and quicker time to diagnosis--a winning solution for both patients and clinics.
Molecular digitization enables the accelerated discovery, development and manufacturing of cell-based products including antibody discovery and development.
Real-time, clinically accurate monitoring of patient fluids allows health care providers time to be utilized most efficiently, and the ability to improve outcomes with access to immediate, accurate diagnostic information.
Moving away from a reactive paradigm of health care practice will significantly improve patient outcomes, while decreasing the total cost of healthcare delivery.
Accurate tests that do not require laboratory analysis, or the collection of large samples--result in less time in the waiting room, near painless testing, and quicker time to diagnosis--a winning solution for both patients and clinics.
Molecular digitization enables the accelerated discovery, development and manufacturing of cell-based products including antibody discovery and development.
Real-time, clinically accurate monitoring of patient fluids allows health care providers time to be utilized most efficiently, and the ability to improve outcomes with access to immediate, accurate diagnostic information.
Atonarp’s newest molecular sensor technology enables clinical level diagnostics without the use of typical laboratory wet chemistry.
Instead, the ATON-360 creates a snapshot of molecular structures and utilizes our proprietary software platform to analyze and determine the type and quantity of analytes present in the sample--all digitally.
Resulting in a new paradigm in diagnostics that is fast, accurate, painless, and cost effective.
Building on our break through technologies for sensing and understanding molecular information, our team of experts is innovating new solutions across the life sciences, semiconductor manufacturing, and industrial process control.
Atonarp’s revolutionary optical spectroscopy platform for molecular diagnostics.
Building on our break through technologies for sensing and understanding molecular information, our team of experts is innovating new solutions across the life sciences, semiconductor manufacturing, and industrial process control.
Real-time process control for semiconductor applications allows CVD, ALD, Etch, ALE and chamber matching in high volume manufacturing environments. Resistant to corrosive gases, contamination, and equipped with incredibly fine sensitivity, Aston is uniquely suited for real-time process control for semiconductor applications.
The industry’s first ever quantitative, real-time miniature molecular sensor allows you to monitor incredibly minuscule traces of gas. The AMS-1000 is equipped to operate in high-pressure environments without the need for external pumps making it well suited for select semiconductor process control applications.
Real-time process control for applications repeatable, high sensitivity actionable chemically specific data. Aston is uniquely suited for dramatically better process control in one highly integrated measurement solution.
A quantitative, real-time, sensor and silicon oil protection module for lyophilization (Lyo) improves process control and contaminant detection.
Measure precise quantities of gases no matter how small to optimize industrial process control and immediately detect any harmful contaminants.
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