Seventeen of the RBPC student teams walked away with investment prizes this year. Photo courtesy of Rice

Over the weekend, Houston hosted what is known as the world’s largest and richest intercollegiate student startup competition, and a Texas team took the overall win and over $3 million in investment prizes were given out at the annual banquet.

The 2023 Rice Business Plan Competition was held May 11-13 and included mentoring, pitching, and networking for the 42 student teams with over 350 judges before culminating in over 80 prizes being announced. The $3.4 million in investment and in-kind prizes marks the largest yet for the 23-year-old competition.

"Judges told us that the quality of the startups at this year’s competition was the best ever,” says Catherine Santamaria, director of the RBPC, in the news release. “One judge went so far as to say that every startup this year was worthy of investment.”

Over 450 startups applied to the competition, and the 42 startups selected hailed from 35 universities from five countries. There were five categories: energy, clean tech and sustainability; life sciences and health care solutions; consumer products and services; hard tech; and digital enterprise. Based on the judges scores, seven startups reached the finals, and this year, three Texas teams made the finals, with two being from Rice University.

All 42 companies were eligible for investment or in-kind prizes, and, even though $1.75 million in prizes was expected to be awarded, some of this year's investors doubled — or even tripled — down on investment awards. While the finalists walked away with various in-kind prizes too, here's a round up of the investment prizes each startup won at the awards.

Zaymo, Brigham Young University — $885,000

Zaymo, a tool for e-commerce brands that embeds the shopping experience within customers’ email, won the most amount of money at the awards ceremony. The company won third place and a $50,000 Investment Prize sponsored by David Anderson, Jon Finger, Anderson Family Fund, Finger Interests, Greg Novak and Tracy Druce. Zaymo also won the following awards:

  • $200,000 OWL Investment Prize
  • $100,000 Houston Angel Network Investment Prize
  • $500,000 Softeq Venture Fund Prize
  • $15,000 Eagle Investors Prize
  • $20,000 Novak Druce Carroll Investment Prize

Boston Quantum, Massachusetts Institute of Technology — $455,000

Boston Quantum, which is using enterprise quantum computing software to disrupt the financial industry, won the second-most amount of investment prizes and sixth place in the competition.

  • $5,000 Chevron Technology Ventures Sixth-Place Cash Prize
  • $300,000 OWL Investment Prize
  • $125,000 Softeq Venture Fund Prize
  • $25,000 Urban Capital Network Diversity Investment Prize in partnership with South Loop Ventures

FluxWorks, Texas A&M University — $350,000

Based on the judges scores, the big winner was FluxWorks, a Texas company that's technology includes magnetic gears that are four times quieter than standard with 99 percent efficiency and can offer unprecedented reliability from outer space to under the sea and even inside the human body. The company won the $350,000 GOOSE Capital Investment Grand Prize.

Skali, Northwestern University — $300,000

Skali, which didn't make it into the prestigious finalist positions, still walked away with $300,000 courtesy of the Softeq Venture Fund Prize. Skali's technology aims to better equip flights with medical emergency assistance.

TierraClimate, Rice University — $280,000

TierraClimate, a marketplace for selling verified carbon offsets to corporate buyers, won fourth place and the Norton Rose Fulbright $5,000 Prize. The company also won a $200,000 Softeq Venture Fund Prize and the $75,000 OWL Investment Prize.

AirSeal, Washington University in St. Louis — $250,000

Another non-finalist that still scored big was AirSeal, a company that's created a simple blood test for cardiovascular diagnostics. The startup secured the $250,000 TMC Innovation Healthcare Investment Prize.

Sygne Solutions, Rice University — $200,000

Sygne Solutions, a startup on a mission of eliminating a group of chemicals known as PFAS in water through its patent-pending technology, won second place and the $100,000 Investment Prize, sponsored by David Anderson, Jon Finger, Anderson Family Fund, Finger Interests, Greg Novak and Tracy Druce. The company also received the $100,000 TiE Houston Angels Investment Prize.

BlueVerse, Texas Tech University — $145,000

BlueVerse, a startup with tech to merge social media with reviews and rewards for small businesses, didn't make the finals but walked away with on of the $125,000 Softeq Venture Fund Prizes and the $20,000 Novak Druce Carroll Investment Prize.

Atma Leather, Yale University —$130,000

Atma Leather, a material innovation company that's created plant-based leather from banana stems and other crop waste, came in fifth place and secured the $5,000 EY Fifth-Place Cash Prize. The startup also won:

  • $75,000 OWL Investment Prizes
  • $50,000 nCourage Investment Group’s Courageous Women Entrepreneurs Investment Prize

MyLÚA Health, Cornell University — $30,000

MyLÚA Health's AI technology supports the maternal health industry. The company won the $30,000 Pearland Economic Development Corporation Spirit of Entrepreneurship Prize.

Active Surfaces, Massachusetts Institute of Technology — $25,000

With its flexible and lightweight solar panel technology, Active Surfaces scored the $25,000 New Climate Ventures Sustainability Investment Prize.

Integrated Molecular Innovations, Michigan Technological University — $25,000

Integrated Molecular Innovations, which created a wearable device that can monitor hormone levels, won the $25,000 Southwest National Pediatric Device Consortium Prize.

MiraHeart, Johns Hopkins University — $25,000

MiraHeart, which created a non-invasive way of monitoring child heart conditions, also won the $25,000 Southwest National Pediatric Device Consortium Prize.

Biome Future, University of Florida — $20,000

Biome Future, which creates ocean-safe chemicals via microbes in corals, won one of the $20,000 Novak Druce Carroll Investment Prizes.

Citrimer, University of Michigan — $10,000

A sustainable materials company, Citrimer won the $10,000 NABACO RBPC Alumni Network Prize.

Thryft Ship, University of Georgia — $10,000

Thryft Ship, which streamlines the shipping process for social media sellers, won a $10,000 nCourage Investment Group’s Courageous Women Entrepreneurs Investment Prize.

Pathways, Harvard University  — $5,000

Pathways, which is developing a full-stack sustainability platform for the construction industry, won $5,000 Shell Ventures Seventh-Place Cash Prize.

In addition to these investment prizes, the startups have the chance to score in-kind prizes. This year, that included:

  • $6,667 Baker Botts Legal Services In-Kind Prize to FluxWorks, Texas A&M University
  • $6,667 Baker Botts Legal Services In-Kind Prize to Sygne Solutions, Rice University
  • $6,667 Baker Botts Legal Services In-Kind PrizeFluxWorks to Zaymo, Brigham Young University
  • $10,000 New York Technology Capital CFO Consulting In-Kind to FluxWorks, Texas A&M University
  • EFN Mentoring Services to all startup competitors
  • Amazon Web Services to all startup competitors
  • Stage 2 Competition Entry to Sygne Solutions, Rice University
All 42 of the RBPC companies wins at least $950. In each of the three semi-final rounds, third place wins $2,000, fourth place wins $1,750, and fifth place wins $1,500. The wild card round, which acts as a second-chance competition for the companies that didn't originally make it to the finals, advances the wild card winner into the finals and also awards second place $1,000, third place $975, fourth place $950, and fifth place $950.
Here's what student teams from around the world were invited to compete in the Rice Business Plan Competition. Photo via rice.edu

Annual student startup competition in Houston names teams for 2023

getting pitch perfect

Rice Alliance for Technology and Entrepreneurship has named the 42 student startup teams that were extended invitations to compete in the 23rd annual Rice Business Plan Competition

The 2023 startup competition will take place on Rice University campus May 11 to 13, and the teams representing 37 universities from six countries will pitch to investors, mentors, and other industry leaders for the chance to win funding and prizes. Last year's RBPC doled out nearly $2 million in investment prizes.

This year, Rice saw its largest number of student startups applying for the RBPC internal qualifier from within campus. The university selected three to move on to compete at RBPC in May — Sygne Solutions, Neurnano Therapeutics, and Tierra Climate, which also received a total of $5,000 in cash prizes to these top three teams.

The 2023 RBPC will focus on five categories: energy, cleantech and sustainability; life science and health care solutions; consumer products and services; hard tech; and digital enterprise.

This invited companies, if they attend, will join the ranks of the 784 teams that previously competed in RBPC and have raised more than $4.6 billion in capital, as well as seen more than 50 successful exits including five IPOs.

The 2023 Rice Business Plan Competition invitees, according to Rice University's news release:

  • Active Surfaces, Massachusetts Institute of Technology
  • Adrigo Insights, Saint Mary’s University (Canada)
  • AirSeal, Washington University in St. Louis
  • Algbio, Yeditepe University (Turkey)
  • Arch Pet Food, University of Chicago
  • Astria Biosciences, University of Pittsburgh
  • Atma Leather, Yale University
  • Atop, UCLA
  • Biome Future, University of Florida
  • BioSens8, Boston University
  • BlueVerse, Texas Tech University
  • Boardible, Northwestern University
  • Boston Quantum, Massachusetts Institute of Technology
  • ceres plant protein cereal, Tulane University
  • Citrimer, University of Michigan
  • Dart Bioscience, University of Oxford (United Kingdom)
  • DetoXyFi, Harvard University
  • E-Sentience, Duke University
  • Edulis Therapeutics, Carnegie Mellon University
  • FluxWorks, Texas A&M University
  • Integrated Molecular Innovations, Michigan Technological University
  • Inzipio, RWTH Aachen University (Germany)
  • LoopX AI, University of Waterloo (Canada)
  • Magnify Biosciences, Carnegie Mellon University
  • MiraHeart, Johns Hopkins University
  • MyLÚA, Cornell University
  • Outmore Living, University of Texas
  • Pathways, Harvard University
  • Pediatrica Therapeutics, University of Arkansas
  • Perseus Materials, Stanford University
  • Pike Robotics, University of Texas
  • Quantanx, Arizona State University
  • Sheza, San Diego State University
  • Skali, Northwestern University
  • Sundial Solar Components, University of Utah
  • Thryft Ship, University of Georgia
  • Tierra Climate, Rice University
  • TrashTrap Sustainability Solutions, Visvesvaraya Technological University (India)
  • Unchained, North Carolina A&T State University
  • Unsmudgeable, Babson College
  • Vivicaly, University of Pennsylvania
  • Zaymo, Brigham Young University
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Venus Aerospace closes $91 million Series B to scale hypersonic engine

flight funding

Houston-based Venus Aerospace has closed a $91 million Series B round and plans to scale the production of its hypersonic engine.

The round was led by Houston-based Mercury Fund with participation from Lockheed Martin Ventures, MESH, PEAK6, Draper Associates, Starboard Star Venture Capital, Green Sands Equity and other investors, according to a news release.

The investment comes about a year after Venus completed the first U.S. flight test of its high-thrust rotating detonation rocket engine (RDRE). The engine is expected to enable vehicles to travel four to six times the speed of sound from a conventional runway and is about 15 percent more efficient than traditional alternatives, according to the company.

Venus Aerospace says the latest round of funding will allow it to move the RDRE from demonstration to deployment and meet customer requirements for the near-term defense and space industries. The company says that the reusable RDRE is designed with a "common propulsion architecture" that can work for multiple industries and mission types.

“This financing marks an important step in moving Venus from breakthrough demonstration to scaled capability,” Sassie Duggleby, co-founder and CEO, said in the news release. “Our customers need propulsion systems that go farther, can be produced reliably and are built on supply chains they can trust. We are advancing that capability with American engineering and manufacturing talent to strengthen U.S. defense, expand space access and support the future of high-speed flight.”

Venus Aerospace raised a $20 million Series A in 2022, led by Wyoming-based Prime Movers Lab. At the time, the company said it would put the funding toward three main technologies: a next-generation rocket engine, aircraft shape and leading-edge cooling system.

The company also picked up an investment from Lockheed Martin Ventures, the investment arm of aerospace and defense contractor Lockheed Martin, in November 2025—in addition to funding from other investors over the years.

“Since our initial investment, Venus has progressed very quickly in its technology development," Chris Moran, vice president and general manager of Lockheed Martin Ventures, added in the release. "Our reinvestment in Venus recognizes Venus’ accomplishments to date and focus on speed to manufacture, cost management and reduction of supply chain constraints. Venus is working effectively to position its propulsion system for the production scale required by defense programs.”

"Venus is exactly the kind of company Houston capital should be backing," Blair Garrou, co-founder and managing partner at Mercury Fund, added in the release. "It combines multiple frontier technologies, domestic manufacturing and clear commercial and national security relevance. We believe this team is positioned to lead an important new chapter in defense and space, and we are proud to support a company building breakthrough technology here in Texas."

Venus Aerospace and Houston clean tech startup Vaulted Deep were named to the World Economic Forum's Technology Pioneers community earlier this summer. Read more here.

Intuitive Machines lands $148M as part of NASA Moon Base funding

to the moon

Houston-based Intuitive Machines has been awarded $148.3 million to deliver its Nova-C lander to the moon by 2028. The funding is part of $600 million that NASA recently awarded to three companies as part of the agency’s Moon Base Program.

The contracts aim to support sustained human presence and commercial operations on the Moon. Austin-based Firefly Aerospace was awarded $144.2 million by NASA for one mission and Pittsburgh-based Astrobotic netted $297.9 million for two lunar landings. Intuitive Machine's award is the company's sixth task order under NASA's Commercial Lunar Payload Services (CLPS) program.

“We’re building a proving ground for Moon Base operations,” Ryan Stephan, NASA’s Moon Base acting director of cargo landers, said in a news release. “Accelerating our Moon mission ordering cadence and launch opportunities enable us to move quickly to learn, iterate, and improve.”

Under the latest task order, Intuitie Machines will deliver three scientific and operational payloads to the moon, which include a:

  • Linear Energy Transfer Spectrometer (LETS) radiation monitor to gather critical environmental safety data
  • Advanced stereo cameras to analyze surface-plume interactions (SCALPSS)
  • Laser retroreflector array (LRA) for precise cislunar positioning

The funding breakdown includes a $68.6 million base contract and a $79.7 million performance incentive for Intuitive Machines.

The company says the funding will allow it to create a standardized and repeatable "lunar utility pipeline" for delivering cargo to the moon.

"We are shifting the paradigm from custom aerospace engineering to commercial mass production of lunar infrastructure," Steve Altemus, CEO of Intuitive Machines, said in a separate news release. "Our flight-proven Nova-C platform allows us to build, test, and deploy multiple landers in parallel using Industry 4.0-powered manufacturing. This contract directly advances our core mission to provide persistent, reliable, and commercial baseline of transport, connectivity, and operations that allows our customers to stay longer and achieve more on the Moon."

NASA also shared that it is exploring plans to send PROMISE, a rover based on the Mars Perseverance and Curiosity rovers, to the moon and it plans to seek proposals for additional lunar lander missions, technology demonstrations, a communications and navigation satellite network, and new science payloads to support its lunar outpost. NASA is developing its Moon Base near the lunar South Pole. The agency expects it to come to fruition sometime after 2032.

Intuitive Machines had received its last CLPS award for $180.4 million in March 2026. It will be the first mission to utilize the company's larger cargo lunar lander, Nova-D. The company was also recently awarded a $1 million grant from Maryland Gov. Wes Moore to expand its robotics operations in the state.

UT team develops wearable technology for atmospheric water harvesting

In The Air

Engineers at the University of Texas at Austin have developed a prototype jacket that harvests clean drinking water directly from the atmosphere, and it works even in the driest desert conditions.

The research, published in Science Advances, marks the latest milestone in nearly a decade of work by materials scientist and chair professor Guihua Yu and his team at the Cockrell School of Engineering's Walker Department of Mechanical Engineering and Texas Materials Institute. The wearable technology marks a significant leap: instead of a bulky, stationary machine, this jacket does the work.

Photo courtesy of UT Austin

"We have been working on atmospheric water harvesting technology for a number of years," Yu says. "This current version is even more wearable. We're transitioning from conventional, more stationary water harvesting to something truly portable and personal."

Yu's lab first published work on hydrogel-based water harvesting around 2019, and the jacket is the latest evolution of that platform, now called AirGel. Last year, the broader AirGel invention won the top prize in the graduate category of the National Collegiate Inventors Competition.

The jacket is woven with specially engineered hydrogel fibers; ultra-porous materials that attract and absorb moisture from the surrounding air much like a household desiccant. Unlike a desiccant, the material doesn't require intense heat to release that water. The hydrogel is thermally responsive, meaning a modest rise in temperature — even from mild solar heating — is enough to release the water it has captured.

Condenser test in AustinSo, somebody would be wearing the jacket, or perhaps carrying this gel-like textile as a blanket, as it passively absorbs moisture from the air. Then they would detach the textile panels and place them into a small, portable collector unit; essentially a compact heater. The water evaporates out of the textile, condenses inside the collector, and drips out as clean, drinkable water.

"It immediately becomes drinkable because it already goes through the distillation process," Yu explains.

In trials, the jacket produced between 400 and 900 milliliters of water per day depending on humidity, or roughly 14-30 ounces, nearly a quart, depending on the air's humidity. With one kilogram of the textile, the researchers found they could generate approximately 3.7-4 liters of water in arid conditions, and potentially double that in humid ones. So far, the team has tried the jacket out in very dry, semi-dry, and humid areas, and the jacket was able to pull water from each climate.

Lead researcher Chuxin Lei, a postdoctoral researcher on Yu's team and co-author on the paper, says the goal was to rethink who this technology could serve.

Portable bag contents

"Many current [atmospheric water harvesting] systems are still built as rigid or stationary platforms, making them less suitable for people who are moving, working outdoors, or operating in some remote environment. This lead us to ask whether we could build a water harvesting system that could become more like clothing — light, wearable, flexible, and naturally suited for personal use," Lei says.

The potential applications are wide-ranging. Yu's team has previously worked with the Department of Defense on water solutions for soldiers, where water logistics can be dangerous and costly. The technology could also serve hikers, emergency responders, disaster relief workers, and agricultural and field workers. Anyone who needs clean water on the go and far from infrastructure.

The team also sees a potential future where the technology complements large-scale centralized water systems rather than replacing them.

"Our solution cannot be a universal solution for all," Yu acknowledges. "But I think it's an extremely important alternative."

For now, the jacket is still a laboratory prototype, but Yu and Lei are optimistic. With the right industry partnerships, they say, the technology could realistically reach commercial scale within three to five years.

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This article originally appeared on CultureMap.com, written by Natalie Grigson.