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Houston expert shares 5 tips for people looking to expand their career into climate tech

A Houston energy professional shares his advice for those looking for a job in climate tech. Photo via Getty Images

If hard times build strong people, then extreme weather events build strong climate tech ecosystems. Nobody knows this conventional wisdom better than Houston.

The past six years alone have seen the second costliest natural disaster in United States history (Hurricane Harvey), the longest power outage in Texas history (Winter Storm Uri), and this June, a heat wave that pushed the ERCOT power grid to record levels.

Combine our ever more volatile climate with a post-COVID-19 reckoning of what it means to work for what you believe in, and you get a recipe for the most significant workforce shift the world has ever seen. This workforce shift rules in favor of climate tech, and it will largely target those who’ve grown up, come of age and started their careers in the midst of this increasing volatility. Climate tech will no longer be considered a standalone industry; it will be baked into all existing industries, and those that don’t accept it will die.

I’m proud to be a climate optimist, but I’m also a realist. The truth is no matter what we do, our volatile climate is going to get worse before it gets better. But if extreme weather events build strong climate tech ecosystems, I can live with that.

To students and young professionals considering a jump into climate tech: There is no better place to be right now. Here are five things to keep in mind as you make that jump.

1. Meet as many people from diverse backgrounds working on as many different things as you can. You will likely feel awkward at first, especially if you don’t naturally gravitate toward conferences and happy hours. At the risk of sounding trite, just treat every stranger like a friend you haven’t met yet. Some of us could probably use more friends anyway.

2. The advice in the self-help book How to Win Friends and Influence People, originally published in 1936, is timeless. Possibly the most useful (and most obvious) point is this: Remember that a person’s name is to that person the sweetest and most important sound in any language. Whenever possible, repeat your new friends’ names when you meet them. Especially if you’re seeking a business development, sales or other external-facing role, perfecting this point should be your Holy Grail.

3. Depending on how new you are to energy and climate tech, you’ll hear lots of unfamiliar lingo. Ask questions, take note of what you still don’t get, and do your best to fill in the gaps on the side. Eventually, acronyms will become your best friend. For example: Have you seen what the ITC and the PTC from the IRA will do to the LCOE of PV according to NREL? IYKYK.

4. Coachability is key. You may feel like you’re getting rejected 99 percent of the time, but the way you respond to and learn from those experiences will ensure the other one percent makes all the difference. At the end of the day, climate tech is so vast that it’s impossible to become an expert in everything, and that’s okay. We may not know what’s going on 70 percent of the time, but I’ll take a .300 batting average any day.

5. It may be impossible to become an expert in everything, but you should proactively learn as much as you can, especially given how quickly the ecosystem is expanding. If you’re not embarrassed by how little you knewone year ago, two years ago or even five years ago, then you’re probably not trying hard enough.

These are only five of my takeaways over the past few years and I’ll be the first to admit that I have a long way to go in implementing them. In a way, that’s what makes this journey what it is. I just can’t wait to see what we build.

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Ryan Davidson is business development lead for CalWave Power Technologies, a California-based company and Greentown Houston member that's focused on converting ocean waves’ hydrokinetic energy into reliable electricity.

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A View From HETI

Houston researchers have uncovered why solid-state batteries break down and what could be done to slow the process. Photo via Getty Images.

A team of researchers from the University of Houston, Rice University and Brown University has uncovered new findings that could extend battery life and potentially change the electric vehicle landscape.

The team, led by Yan Yao, the Hugh Roy and Lillie Cranz Cullen Distinguished Professor of Electrical and Computer Engineering at UH, recently published its findings in the journal Nature Communications.

The work deployed a powerful, high-resolution imaging technique known as operando scanning electron microscopy to better understand why solid-state batteries break down and what could be done to slow the process.

“This research solves a long-standing mystery about why solid-state batteries sometimes fail,” Yao, corresponding author of the study, said in a news release. “This discovery allows solid-state batteries to operate under lower pressure, which can reduce the need for bulky external casing and improve overall safety.”

A solid-state battery replaces liquid electrolytes found in conventional lithium-ion cells with a solid separator, according to Car and Driver. They also boast faster recharging capabilities, better safety and higher energy density.

However, when it comes to EVs, solid-state batteries are not ideal since they require high external stack pressure to stay intact while operating.

Yao’s team learned that tiny empty spaces, or voids, form within the solid-state batteries and merge into a large gap, which causes them to fail. The team found that adding small amounts of alloying elements, like magnesium, can help close the voids and help the battery continue to function. The team captured it in real-time with high-resolution videos that showed what happens inside a battery while it’s working under a scanning electron microscope.

“By carefully adjusting the battery’s chemistry, we can significantly lower the pressure needed to keep it stable,” Lihong Zhao, the first author of this work, a former postdoctoral researcher in Yao’s lab and now an assistant professor of electrical and computer engineering at UH, said in the release. “This breakthrough brings solid-state batteries much closer to being ready for real-world EV applications.”

The team says it plans to build on the alloy concept and explore other metals that could improve battery performance in the future.

“It’s about making future energy storage more reliable for everyone,” Zhao added.

The research was supported by the U.S. Department of Energy’s Battery 500 Consortium under the Vehicle Technologies Program. Other contributors were Min Feng from Brown; Chaoshan Wu, Liqun Guo, Zhaoyang Chen, Samprash Risal and Zheng Fan from UH; and Qing Ai and Jun Lou from Rice.

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