ACT LAB’s NIR Tech solution offers comprehensive benefits designed to optimize your cannabis testing process with precise, real-time analysis. With NIR Tech, you get results you can trust, providing reliable insights into potency and moisture, as well as total cannabinoid and terpene quantities to ensure high-quality analysis and reduce ambiguity around flower and product potency, which can delay strategic decision-making.
NIR Tech accelerates market access by providing real-time, non-destructive analysis of cannabis and hemp products. This technology helps cannabis businesses get new products to market faster, avoid recalls, and ensure premium quality cannabis that consumers can trust. Providing reliable cannabis and hemp analysis, NIR tech is an ideal solution for companies that want to enhance their operational efficiency.
NIR Tech delivers immediate potency results, helping your cannabis and hemp products hit the shelves faster and maximizing revenue.
Optimize potency by optimizing cure time - moisture impacts potency.
Integrates with HPLC systems for potency testing, Loss on Drying (LOD) for moisture testing, and LC/MS for terpene testing to deliver accurate results without needing to send to a cannabis analysis lab, enabling faster product decisions.
By replacing wet-testing methods for R&D, you can reduce non-compliance testing costs and save up to $77,000 annually.
(distillate and concentrates)
NIR Tech uses advanced technology to enable informed decision-making, cut operational costs, and speed up market time, helping grow your business and boost revenue. Using technology that removes the delays associated with traditional lab results, NIR Tech offers faster and more precise data.
ACT LAB is your trusted cannabis testing partner and offers licensed and accredited cannabis testing solutions for cannabis compliance testing. Operating across multiple states, ACT LAB delivers consistent and accurate results. Our services support your cannabis brand at every stage, from seed to sale, ensuring compliance and quality throughout the process.