Accelerated Multi‐Stage Synthesis of Indium Phosphide Quantum Dots in Modular Flow Reactors

Development and scalable nanomanufacturing of high-quality heavy metal-free quantum dots (QDs) with high-dimensional experimental design spaces still remain a challenge. In this work, universal flow chemistry framework for accelerated fundamental applied studies QDs multi-stage chemistries is presented. By introducing flexible time- temperature-to-distance transformation using modular fluidic blocks, an in-flow synthetic route InP the highest reported first excitonic absorption peak to valley ratio unveiled reaction time one order magnitude faster than batch reactors. The as enabling factor generalization reactors toward discovery, development, emerging nanomaterials next-generation energy, display, chemical technologies discussed.