Stephanie Grayson
About Stephanie Grayson
Stephanie Grayson is a leader in commercial real estate retrofits and building science, currently spearheading commercialization and go-to-market strategies at Cambio.
Stephanie Grayson at Cambio
Stephanie Grayson leads the commercialization and go-to-market strategy at Cambio. Drawing from her extensive experience in commercial real estate and building science, she plays a pivotal role in driving market adoption of Cambio’s innovative solutions. At Cambio, she leverages her background to develop strategic initiatives that enhance the company's market position and capture growth opportunities within the industry.
Stephanie Grayson's Education and Expertise
Stephanie Grayson holds both an MBA and an MS in the sustainable built environment from Stanford University. Her rigorous academic background has equipped her with a comprehensive understanding of the intersection between sustainability, technology, and real estate. Her expertise spans commercial real estate retrofits and building science, providing her with in-depth knowledge and skills critical for leading projects that improve building performance and sustainability.
Commercial Real Estate Experience of Stephanie Grayson
Stephanie Grayson spent seven years in the commercial real estate sector, where she was involved in launching platforms at prestigious firms including Goldman Sachs, KKR (managing a $30bn REIT), and JPMorgan. Her roles at these firms have given her a robust understanding of the financial and operational aspects of commercial real estate, preparing her to handle complex projects and drive strategic initiatives.
Masters Thesis on AI Commercialization
Stephanie Grayson's master's thesis at Stanford focused on the commercialization of artificial intelligence to promote mass adoption of retrofits in the building sector. This specialized research highlights her capability to integrate advanced technological solutions with sustainability practices, aiming to accelerate the retrofitting of buildings and improve energy efficiency on a large scale.