Rice University makes top 5 lists of best biz schools in the country

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Rice University's business programs score more accolades from the Princeton Review. Photo via Rice.edu

MBA programs at Rice University’s Jones Graduate School of Business have landed two top five rankings in The Princeton Review’s annual list of the country’s best business schools.

Rice earned a No. 4 ranking for its online MBA program and a No. 5 ranking for its MBA program in finance.

“These rankings are indicative of the high-quality education offered through all of our MBA programs. Students studying finance at Rice … are taught by faculty whose research and expertise enhances core classes and hard skills, so students are not just prepared to be successful in their careers, but they are also prepared to think critically about their roles and to lead in their industry,” Peter Rodriguez, dean of the Jones Graduate School of Business, says in a news release.

“These rankings are also indicative of our broader approach: offering students flexibility in their pursuit of an MBA, while retaining the experience of studying with world-class faculty — no matter what program they choose,” Rodriguez adds.

Rice also achieved high rankings in two other MBA categories: No. 8 for “greatest resources for women” and No. 10 for “greatest resources for minority students.”

The Princeton Review’s 2024 business school rankings are based on data from surveys of administrators at more than 400 business schools as well as surveys of 32,200 students enrolled in the schools’ MBA programs.

“The schools that made our list for 2024 all have impressive individual distinctions,” Rob Franek, The Princeton Review’s editor-in-chief, says in a news release. “What they share are three characteristics that broadly informed our criteria for these rankings: outstanding academics, robust experiential learning components and excellent career services.”

Rice also ranks as the top school for graduate entrepreneurship programs, which Princeton Review released last fall. The University of Houston ranks as No. 1 for undergraduate entrepreneurship programs.

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5 Rice University-founded startups named finalists ahead of prestigious pitch competition

student founders

Five student-founded startups have been named finalists for Rice University's prestigious pitch competition, hosted by Rice University’s Liu Idea Lab for Innovation and Entrepreneurship later this month

The teams will compete for a share of $100,000 in equity-free funding at the H. Albert Napier Rice Launch Challenge (NRLC), a venture competition that features Rice University's top student-founded startups. The competition is open to undergraduate, graduate, and MBA students at Rice.

Finalists will pitch their five-minute pitch before the Rice entrepreneurship community, followed by a Q&A from a panel of judges, at Rice Memorial Center Tuesday, April 22.

The first-place team will receive $50,000 in equity-free funding, with other prizes and awards ranging from $25,000 to $1,000. Apart from first-, second- and third-place prizes, NRLC will also name winners in categories like the Outstanding Achievement in Artificial Intelligence Prize, the Outstanding Achievement in Climate Solutions Prize, and the Audience Choice Award.

Here are the five startups founded by Rice students are heading to the finals.

Haast Autonomous

Haast Autonomous is building unmanned, long-range VTOL aircraft with cold storage to revolutionize organ transport—delivering life-saving medical supplies roof-to-roof faster, safer, and more efficiently than current systems.

Founders: Jason Chen, Ege Halac, Santiago Brent

Kinnections

Kinnections' Glove is a lightweight, wearable device that uses targeted vibrations to reduce tremors and improve motor control in Parkinson’s patients.

Founders: Emmie Casey, Tomi Kuye

Labshare

Labshare is an AI-powered web app that streamlines lab inventory and resource sharing, reducing waste and improving efficiency by connecting neighboring labs through a centralized, real-time platform.

Founders: Julian Figueroa Jr, John Tian, Mingyo Kang, Arnan Bawa, Daniel Kuo

SteerBio

SteerBio’s LymphGuide is a patented, single-surgery hydrogel solution that restores lymphatic function by promoting vessel growth and reducing rejection, offering a transformative, cost-effective treatment for lymphedema.

Founders: Mor Sela Golan, Martha Fowler, Alvaro Moreno Lozano

Veloci

Veloci Running creates innovative shoes that eliminate the trade-off between foot pain and leg tightness, empowering runners to train comfortably and reduce injury risk.

Founders: Tyler Strothman

Last year, HEXASpec took home first place for its inorganic fillers that improve heat management for the semiconductor industry. The team also won this year's Energy Venture Day and Pitch Competition during CERAWeek in the TEX-E student track.

Dow aims to power Texas manufacturing complex with next-gen nuclear reactors

clean energy

Dow, a major producer of chemicals and plastics, wants to use next-generation nuclear reactors for clean power and steam at a Texas manufacturing complex instead of natural gas.

Dow's subsidiary, Long Mott Energy, applied Monday to the U.S. Nuclear Regulatory Commission for a construction permit. It said the project with X-energy, an advanced nuclear reactor and fuel company, would nearly eliminate the emissions associated with power and steam generation at its plant in Seadrift, Texas, avoiding roughly 500,000 metric tons of planet-warming greenhouse gas emissions annually.

If built and operated as planned, it would be the first U.S. commercial advanced nuclear power plant for an industrial site, according to the NRC.

For many, nuclear power is emerging as an answer to meet a soaring demand for electricity nationwide, driven by the expansion of data centers and artificial intelligence, manufacturing and electrification, and to stave off the worst effects of a warming planet. However, there are safety and security concerns, the Union of Concerned Scientists cautions. The question of how to store hazardous nuclear waste in the U.S. is unresolved, too.

Dow wants four of X-energy's advanced small modular reactors, the Xe-100. Combined, those could supply up to 320 megawatts of electricity or 800 megawatts of thermal power. X-energy CEO J. Clay Sell said the project would demonstrate how new nuclear technology can meet the massive growth in electricity demand.

The Seadrift manufacturing complex, at about 4,700 acres, has eight production plants owned by Dow and one owned by Braskem. There, Dow makes plastics for a variety of uses including food and beverage packaging and wire and cable insulation, as well as glycols for antifreeze, polyester fabrics and bottles, and oxide derivatives for health and beauty products.

Edward Stones, the business vice president of energy and climate at Dow, said submitting the permit application is an important next step in expanding access to safe, clean, reliable, cost-competitive nuclear energy in the United States. The project is supported by the Department of Energy’s Advanced Reactor Demonstration Program.

The NRC expects the review to take three years or less. If a permit is issued, construction could begin at the end of this decade, so the reactors would be ready early in the 2030s, as the natural gas-fired equipment is retired.

A total of four applicants have asked the NRC for construction permits for advanced nuclear reactors. The NRC issued a permit to Abilene Christian University for a research reactor and to Kairos Power for one reactor and two reactor test versions of that company's design. It's reviewing an application by Bill Gates and his energy company, TerraPower, to build an advanced reactor in Wyoming.

X-energy is also collaborating with Amazon to bring more than 5 gigawatts of new nuclear power projects online across the United States by 2039, beginning in Washington state. Amazon and other tech giants have committed to using renewable energy to meet the surging demand from data centers and artificial intelligence and address climate change.

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

UH, Baylor researchers make breakthrough with new pediatric leukemia treatment device

childhood cancer

A team of Houston researchers has developed a new microfluidic device aimed at making treatments safer for children with hyperleukocytosis, a life-threatening hematologic emergency often seen in patients with leukemia.

Dr. Fong Lam, an associate professor of pediatrics at Baylor College of Medicine and a pediatric intensive care physician at Texas Children’s Hospital, partnered with Sergey Shevkoplyas, a professor of biomedical engineering at UH, on the device that uses a large number of tiny channels to quickly separate blood cells by size in a process called controlled incremental filtration, according to a news release from UH.

They tested whether performing cell separation with a high-throughput microfluidic device could alleviate the limitations of traditional conventional blood-filtering machines, which pose risks for pediatric patients due to their large extracorporeal volume (ECV), high flow rates and tendency to cause significant platelet loss in the patient. The results of their study, led by Mubasher Iqbal, a Ph.D. candidate in biomedical engineering at UH, were published recently in the journal Nature Communications.

“Continuously and efficiently separating leukocytes from recirculating undiluted whole blood — without device clogging and cell activation or damage — has long been a major challenge in microfluidic cell separation,” Shevkoplyas said in a news release. “Our study is the first to solve this problem.”

Hyperleukocytosis is a condition that develops when the body has an extremely high number of white blood cells, which in many cases is due to leukemia. According to the release, up to 20 percent to 30 percent of patients with acute leukemia develop hyperleukocytosis, and this places them at risk for potentially fatal complications.

The new device utilizes tiny channels—each about the width of a human hair—to efficiently separate blood cells through controlled incremental filtration. According to Lam, the team was excited that the new device could operate at clinically relevant flow rates.

The device successfully removed approximately 85 percent of large leukocytes and 90 percent of leukemic blasts from undiluted human whole blood without causing platelet loss or other adverse effects. It also operates with an ECV that’s about 1/70th of conventional leukapheresis machines, which makes it particularly suitable for infants and small children.

“Overall, our study suggests that microfluidics leukapheresis is safe and effective at selectively removing leukocytes from circulation, with separation performance sufficiently high to ultimately enable safe leukapheresis in children,” Shevkoplyas said in the release.

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