Stanford Doerr School of Sustainability
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Anjana Richards
Assistant Dean for Education and Integration Strategy, Stanford Doerr School of Sustainability - Dean's Office
BioAnjana is the Assistant Dean for Education and Integration Strategy where she is responsible for strategic planning, organizational design and program management for new curriculum, educational programs, community engaged learning and research, as well supporting new efforts in partner-engaged research, environmental justice, and sustainable societies. She most recently served as core programmatic staff for the complex charge of the Doerr School creation, working in close collaboration with faculty leadership and senior administration on all elements of the transition.
Anjana joined Stanford in 2014. She served as Associate Director for Program Strategy for the Emmett Interdisciplinary Program in Environment and Resources (E-IPER), and ran E-IPER’s joint MS degree programs. She also worked for five years in community college education, leading multi-stakeholder teams to build clean energy, environmental science, and sustainable campus initiatives, and deliver social innovation programs that served a diversity of communities. Anjana's work builds from a 10-year private sector career driving environmental improvements within manufacturing and research practices, and creating sustainability strategies for large corporate clients.
Anjana brings a sustainability mindset and a practitioner’s lens to her roles in higher education administration. She holds a Bachelor of Science in Civil/Environmental Engineering from Purdue University and a Master of Science in Environmental Management from the Illinois Institute of Technology Stuart School of Business. Anjana enjoys being an active parent and avid traveler to friends, family, and forests near and far. -
Juan Rivas-Davila
Associate Professor of Electrical Engineering and Senior Fellow at the Precourt Institute for Energy
Current Research and Scholarly InterestsModern applications demand power capabilities beyond what is presently achievable. High performance systems need high power density and bandwidth that are difficult to achieve.
Power density can be improved with better semiconductors and passive componets, and by reducing the energy storage requirements of the system. By dramatically increasing switching frequency it is possible to reduce size of power converters. I'm interested in high performance/frequency circuits switching >10 MHz.
