A scalable and efficient synthesis of hydroxyindanone 3, a key intermediate for belzutifan (MK-6482), is described. Mechanistic studies revealed the sensitivity of the reduction reaction toward the CO2 byproduct. Special effort was required to design a scale-insensitive process for the removal of CO2 with active nitrogen headspace sweeping, supported by process modeling and verification with process analytical technology data. Automated sampling facilitated data-rich experimentation via kinetic profiling, culminating in enhanced understanding and further robustness-based optimization for the reduction reaction. Herein we report the development of a one-pot through-process with direct isolation of 3 in high yield (>90%) and purity (>99 LCAP, >99 ee) at commercial scales. The newly developed process ensures process robustness and improves cycle times and process mass intensity.

• Merck & Co., Inc.

• Intermediate

1. asymmetric transfer hydrogenation
2. Belzutifan
3. Intermediate
4. kinetic profiling
5. nitrogen sweep
6. renal cell carcinoma
7. Research Article