 SkyCo Systems is advancing a revolutionary, passive approach to air conditioning and refrigeration that can improve the efficiency of today's systems dramatically. It does this by harnessing a renewable resource, the coal of the sky and outer space, and where it's 24 hours a day. Kiwi's mission is to eliminate unnecessary wastage in commercial buildings through the power of IoT and big data. So we use existing infrastructure, existing outlets in a given building, and we turn them smart. So Citrine is a company that builds the data platform for the physical world. We build machine learning systems for the materials and chemicals industry and for product development organizations to develop new products and materials faster. Entrepreneurship in Silicon Valley. GSEV is extremely important. It gives people the opportunity to see what's going on and even know big problems to be solved. At Spark, we're creating a power plant on a chip, a device that can take any fuel or any source of high-grade heat and convert it into electricity very efficiently and with no moving parts. I got my start in thermionics here at Stanford and actually our very first explorations into interesting novel ideas for thermionics were supported by the Global Climate and Energy Project. If we're successful, then Spark thermionics devices could compete with virtually any engine, any mechanical engine of any kind. IrisPV is making solar panels with perovskite semiconductors stacked on top of Silicon. Our goal is to make solar panels that have efficiency close to 30%. GSEV funded the original research we did at Stanford and IrisPV is a spin-out of that research. Huberg is an energy startup company building safer and longer-lasting batteries. And so at Huberg, we're developing a new electrolyte chemistry that's non-planable and also only delivers great safety advantages compared to conventional battery technology. GSEV actually sponsored a lot of the original research that went into the company and so we've been attending GSEV symposiums for the past several years when I was a PhD student here presenting our research and poster sessions. They've really been a great support for the research, allowed us to explore a lot of new directions with the battery technology that we couldn't have done otherwise without that kind of continued funding. At OPUS-12, we're developing technology to recycle carbon dioxide back into higher value of chemicals and fuels that we rely on every day. One of our key innovations is using an industrially relevant reactor design to do the CO2 recycling reaction. As a GSEV student, I got to speak actually at the GSEV symposium and it was just a great experience in getting to expose others to the technology and work on my own ability to communicate what we were doing in the lab to a broader audience. GSEV has been critically important to creating an ecosystem for renewable energy research at Stanford. It's just gotten better and better and allowed Stanford to become a leader in researching for alternatives to conventional energy.