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January 28, 2026 • 6:00 pm - 8:30 pm est

Powering Data Centers: Nuclear Energy and Emerging Careers

The Center on Global Energy Policy at Columbia University SIPA's Women in Energy initiative and Accenture invite you to join us for an evening of conversation and networking...

Event • Accenture – One Manhattan West
395 9th Ave, New York
Powering Data Centers: Nuclear Energy and Emerging Careers

About Us

We are the premier hub and policy institution for global energy thought leadership. Energy impacts every element of our lives, and our trusted fact-based research informs the decisions that affect all of us.

Daniel Esposito

Associate Professor of Chemical Engineering, Columbia Engineering

Biography

Daniel Esposito’s Solar Fuels Engineering Laboratory develops solar and electrochemical technologies that convert renewable and abundant solar energy into storable chemical fuels.

His lab’s research is motivated by a sustainable energy future in which sunlight is used to convert low energy molecules such as water into storable chemical fuels such as hydrogen. These solar-generated fuels are often referred to as “solar fuels,” which offer an attractive means of storing solar energy and thereby overcome the issue of solar intermittency. Fuels also have the advantage of being versatile, meaning that they can be used for a wide variety of applications across transportation, industrial, residential, and commercial energy sectors. In the Solar Fuels Engineering Lab, the overarching goals are: (1) to develop novel materials and devices that can more efficiently and cost-effectively produce solar fuels than today’s state-of-the-art technology, and (2) to help equip the next generation of engineers with the skills they will need to engineer a sustainable energy future.

Esposito’s research group works at the intersections of catalysis, photovoltaics, materials science, and electrochemical engineering. By using advanced analytical techniques to study well-defined materials and electrodes, they seek to develop a deeper understanding of the fundamental chemical and physical phenomena that underlie the operation of solar and electrocatalytic technologies. Especially important to this research are scanning probe microscopy techniques, which are used to measure micro- and nano-scale spatial variation in the properties and performance of (photo)electrocatalytic materials while they are operating in the electrochemical environment. This materials-centric research is strongly complemented by efforts to design scalable photoelectrochemical (PEC) and photovoltaic (PV) electrolysis reactors, devices that convert sunlight or solar-generated electricity into solar fuels. The group’s research in this second area relies on emerging 3D printing fabrication capabilities, modeling, and high speed video imaging to guide the design of innovative device concepts.

Esposito joined the Chemical Engineering Department at Columbia Engineering in 2014. Prior to that, he was a postdoctoral fellow at the National Institute of Standards and Technology in the National Research Council Fellowship Program. He received his BS in chemical engineering in 2006 from Lehigh University and a PhD in chemical engineering in 2012 from the University of Delaware.

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