As the city grows, Houston faces more and more challenges from transportation and infrastructure to gentrification and climate change. Getty Images

As technology and infrastructure evolves, Houston is growing and evolving with it — in both good ways and bad.

On October 30, Gensler hosted its annual Evolution Houston forum that brings together various personalities and industries to discuss the future of the city of Houston. The panelists discussed gentrification, climate change, mobility, smart cities, and so many other hot topics Houstonians hear or think about on a regular basis.

Missed the event? Here are some powerful quotes from the discussion.

“I like to think of Houston as an adolescent city, struggling for its identity.”

Peter Merwin, design principal at Gensler, who adds, "If you look at places like New York, London, Paris — those are all luxury cities. They are fully formed, and a consequence of that is that they become unaffordable. It's something that we have to be careful about in Houston."

“One of the things that has been echoed by many of the artists and many of the poor people over the last few years is, [people] ‘want the culture but they don’t want us.’ It’s very reflective when you go [into the communities.]”

Kam Franklin, activist and singer-songwriter of The Suffers. Franklin described how she would move from the various neighborhoods she's lived in after they've grown in culture. She would see such a huge increase in her rent as people were more willing to pay the premium to live in these newly desirable neighborhoods because of the culture, but its pricing out the original inhabitants. Franklin added, "I'm not going to tell any of y'all where I moved."

“We have to continue to support the diversification of mobility options.”

Abbey Roberson, vice president of planning at the Texas Medical Center. Roberson says transportation is something she particularly focuses on considering how many people filter in and out of the TMC on a daily basis. The medical center wouldn't be able to support the traffic with out various modes of transportation — busses, light rails, etc. Roberson adds that this translates to the rest of the city. "We can't just be doing one thing or the other."

“We’re creating this great culture of trail activation.”

Steve Radom, founder & managing principal at Radom Capital LLC, which developed Heights Mercantile off a bike path and is now building out The MKT, which is also along the same bike path. Radom notes that the city has seen a 300 percent year over year in walkability and a 70 percent increase in bike traffic.

“Climate change is not something the city of Houston can change alone.”

Lara Cottingham, chief of staff & chief sustainability officer at the city of Houston. The city's climate action plan is a result of the devastating floods has seen almost annually. The plan is still being drafted but a version is expected to be released before the end of the year. Every city is facing sustainability challenges, and partnerships are what's going to drive change. "In Houston success means partnership," Cottingham adds.

“How do you talk about a city this big and diverse — every neighborhood has its own identity.”

Jon Nordby, managing director of MassChallenge in Houston, discussed how Houston functions differently from other cities in that it its various neighborhoods — the Heights, Montrose, downtown — are different from each other.

Ad Placement 300x100
Ad Placement 300x600

CultureMap Emails are Awesome

Houston research breakthrough could pave way for next-gen superconductors

Quantum Breakthrough

A study from researchers at Rice University, published in Nature Communications, could lead to future advances in superconductors with the potential to transform energy use.

The study revealed that electrons in strange metals, which exhibit unusual resistance to electricity and behave strangely at low temperatures, become more entangled at a specific tipping point, shedding new light on these materials.

A team led by Rice’s Qimiao Si, the Harry C. and Olga K. Wiess Professor of Physics and Astronomy, used quantum Fisher information (QFI), a concept from quantum metrology, to measure how electron interactions evolve under extreme conditions. The research team also included Rice’s Yuan Fang, Yiming Wang, Mounica Mahankali and Lei Chen along with Haoyu Hu of the Donostia International Physics Center and Silke Paschen of the Vienna University of Technology. Their work showed that the quantum phenomenon of electron entanglement peaks at a quantum critical point, which is the transition between two states of matter.

“Our findings reveal that strange metals exhibit a unique entanglement pattern, which offers a new lens to understand their exotic behavior,” Si said in a news release. “By leveraging quantum information theory, we are uncovering deep quantum correlations that were previously inaccessible.”

The researchers examined a theoretical framework known as the Kondo lattice, which explains how magnetic moments interact with surrounding electrons. At a critical transition point, these interactions intensify to the extent that the quasiparticles—key to understanding electrical behavior—disappear. Using QFI, the team traced this loss of quasiparticles to the growing entanglement of electron spins, which peaks precisely at the quantum critical point.

In terms of future use, the materials share a close connection with high-temperature superconductors, which have the potential to transmit electricity without energy loss, according to the researchers. By unblocking their properties, researchers believe this could revolutionize power grids and make energy transmission more efficient.

The team also found that quantum information tools can be applied to other “exotic materials” and quantum technologies.

“By integrating quantum information science with condensed matter physics, we are pivoting in a new direction in materials research,” Si said in the release.

---

This article originally appeared on our sister site, EnergyCapitalHTX.com.

Houston humanoid robotics startup inks new deal to deploy its rugged robots

big deal

Houston-based Persona AI announced the expansion of its operations at the Ion and a major milestone in deploying its humanoid robots.

The company will establish a state-of-the-art development center in the prominent corner suite on the first floor of the Ion, and is slated to begin expansion in June.

“We chose the Ion because it’s more than just a building — it’s a thriving innovation ecosystem,” CEO Nicolaus Radford said in a news release. “This is where Houston’s tech future is being built. It’s a convergence point for the people, energy, and ideas that power our mission to redefine human-machine collaboration. For an industrial, AI-driven robotics company, there’s no better place to scale than in the heart of Houston.”

Persona AI’s new development center will be located in the suite utilized by the Ion Prototyping Lab, managed by TXRX Labs. The IPL will transition its operations to the expanded TXRX facility in the East End Maker Hub, which will allow the lab to grow its team and meet increased demand.

At the start of the year, Persona AI closed $25 million in pre-seed funding. Earlier this month, the company announced a memorandum of understanding with HD Korea Shipbuilding & Offshore Engineering, HD Hyundai Robotic, and Korean manufacturing firm Vazil Company to create and deploy humanoid robots for complex welding tasks in shipyards.

The project will deliver prototype humanoids by the end of 2026, with field testing and full commercial deployment scheduled to begin in 2027.

"As heavy industry faces growing labor constraints—especially in high-risk trades like welding—the need for rugged, autonomous humanoid robots is more urgent than ever,” Radford added in a separate statement. “This partnership with HD Hyundai and Vazil is more than symbolic—deploying to the shipyard is one of the largest real-world proving grounds for Persona's tough, humanoid robots.”

Houston climatech co. to lead one of world's largest carbon capture projects

Big Deal

Houston-based CO2 utilization company HYCO1 has signed a memorandum of understanding with Malaysia LNG Sdn. Bhd., a subsidiary of Petronas, for a carbon capture project in Malaysia, which includes potential utilization and conversion of 1 million tons of carbon dioxide per year.

The project will be located in Bintulu in Sarawak, Malaysia, where Malaysia LNG is based, according to a news release. Malaysia LNG will supply HYCO1 with an initial 1 million tons per year of raw CO2 for 20 years starting no later than 2030. The CCU plant is expected to be completed by 2029.

"This is very exciting for all stakeholders, including HYCO1, MLNG, and Petronas, and will benefit all Malaysians," HYCO1 CEO Gregory Carr said in the release. "We approached Petronas and MLNG in the hopes of helping them solve their decarbonization needs, and we feel honored to collaborate with MLNG to meet their Net Zero Carbon Emissions by 2050.”

The project will convert CO2 into industrial-grade syngas (a versatile mixture of carbon monoxide and hydrogen) using HYCO1’s proprietary CUBE Technology. According to the company, its CUBE technology converts nearly 100 percent of CO2 feed at commercial scale.

“Our revolutionary process and catalyst are game changers in decarbonization because not only do we prevent CO2 from being emitted into the atmosphere, but we transform it into highly valuable and usable downstream products,” Carr added in the release.

As part of the MoU, the companies will conduct a feasibility study evaluating design alternatives to produce low-carbon syngas.

The companies say the project is expected to “become one of the largest CO2 utilization projects in history.”

HYCO1 also recently announced that it is providing syngas technology to UBE Corp.'s new EV electrolyte plant in New Orleans. Read more here.

---

This story originally appeared on our sister site, EnergyCapitalHTX.com.