{"id":"M10-049","slug":"advanced-laser-fluorometry--M10-049","source":{"id":"M10-049","dataset":"techtransfer","title":"Advanced laser fluorometry platform for real-time biological analysis","description_":"

This technology is a portable fluorescence-based sensing platform for real-time detection, measurement and monitoring of biological and environmental samples.

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Unmet Need: Mobile fluorescence sensing platform for biological monitoring

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Current methods for detecting and quantifying biological molecules often require expensive laboratory equipment, time-consuming sample preparation, and specialized expertise. These limitations can make it difficult to obtain rapid, high-quality measurements in field, aquatic, or resource-limited environments. There is a need for accessible, portable technologies that enable real-time characterization of biological materials while maintaining the sensitivity and accuracy of laboratory-based approaches.

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The Technology: Portable fluorometry platform for rapid biological analysis

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This technology is a portable laser fluorometry platform that enables rapid, high-resolution analysis of biological and environmental samples through spectral analysis. By separating complex fluorescence signals into their individual components, the platform can identify and quantify fluorescent constituents while providing deeper insight into sample composition and biological activity. Its portable design supports real-time measurements in both laboratory and field settings.

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This platform has been used for the analysis of chlorophyll, phycobiliproteins, dissolved organic matter, and other fluorescent constituents in liquid samples.

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Applications:

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Advantages:

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Lead Inventor:

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Alexander Chekalyuk, Ph.D.

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Patent Information:

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Patent Issued(US 89,708,41)

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Related Publications:

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Tech Ventures Reference:

\r\r","tags":["Biomonitoring","Chlorophyll","Dissolved organic carbon","Environmental monitoring","Fluorescence","Fluorescence spectroscopy","Industrial processes","Spectroscopy"],"file_number":"M10-049","collections":[],"meta_description":"Portable laser fluorometry enables real-time, field-ready spectral signals to quantify biological and environmental fluorophores.","apriori_judge_output":"{\"scores\":{\"novelty\":4.0,\"potential_impact\":4.0,\"readiness\":4.0,\"scalability\":3.0,\"timeliness\":4.0},\"weighted_score\":3.65,\"risks\":[\"More than 3-year old items: none clearly identified in description; assume up-to-date but need market/tech refresh for 2026 context\",\"Potential overlap with existing fluorescence platforms may affect differentiation\",\"Regulatory/compliance considerations for environmental/industrial deployments not addressed\",\"Manufacturing cost and ruggedization for field deployment not detailed\"],\"one_sentence_take\":\"Strong novelty and applicability with solid readiness and timeliness, but need clear differentiation strategy and cost/ manufacturability details to optimize adoption.\"}","inventors":["Alexander Chekalyuk"],"manager":"Dovina Qu","depts":["Biology-Paleo Environment"],"divs":["Lamont-Doherty Earth Observatory"],"date_released":"2026-06-26"},"highlight":{},"matched_queries":null,"score":0.0}