Scientists often begin with a single question. What's the best way to make this molecule? With the LUMA Synthia Connector, work that used to take days or weeks now appears in minutes, ultimately saving money. Start in your ELN, LUMA, or Synthia to request retrosynthetic analysis for your target molecule. From LUMA, you can access Synthia to directly connect retrosynthesis to your digital lab environment. Draw your target molecule in LUMA. With a single click, submit the structure to Cynthia to explore synthetic route options. Cynthia returns multiple retrosynthetic pathways, now available for exploration in LUMA. Make decisions based on various criteria, such as path score and reaction count. LUMA augments Cynthia's predictive chemistry with real experimental data from any ELN to give you a unified view spanning both theoretical design and practical lab performance. Drill down in specific synthetic route details. With Luma, you can instantly surface similar chemistry from your ELN to give every route more real world context. You're no longer looking at abstract steps. You're viewing actual experiments. Powerful visibility that chemists simply couldn't access from virtual routes alone. Execute the synthesis with an enriched AI assisted plan. Luma's AI agent can help analyze results, prioritize routes, or flag synthetic complexity. Uncertainty is lower and the chance of success is higher. Once I've selected the reaction that I want to physically do in the laboratory, I can start the experiment. The software will check my current inventory and automatically create an order from the MilliporeSigma catalog for the reagents that I need to purchase. Then it creates an ELN experiment. You can execute your synthesis in any ELN. With Luma and Synthia, this end to end workflow creates intelligent route design, unified planning, enhanced decision making, and automated laboratories, delivering a repeatable feedback loop.
The SYNTHIA + Luma Connector revolutionizes the way chemists conduct retrosynthetic analysis by streamlining workflow processes that previously took days or weeks, reducing it to mere minutes. Users can draw their target molecules in Luma and instantly submit them to SYNTHIA for multiple synthetic route options.
The integration allows users to make informed decisions based on real experimental data, providing visibility into actual lab performance rather than just theoretical paths. Luma enhances decision-making by analyzing results and flagging complexities while automatically managing reagent orders for the laboratory, thus creating an efficient, automated laboratory experience.
