Education (Colleges & Universities)
Here's a look at documents from public, private and community colleges in the U.S.
Featured Stories
Virginia Tech: Dancing to Invisible Choreography, Quantum Computers Can Balance the Noise
BLACKSBURG, Virginia, March 25 (TNSjou) -- Virginia Tech issued the following news:
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Dancing to invisible choreography, quantum computers can balance the noise
When it comes to error sensitivity, quantum computers are huge divas. Virginia Tech physicists devised a technique that draws on hidden quantum geometry to simplify the problem.
By Kelly Izlar
Large-scale quantum computers are waiting in the wings. One of the main reasons we don't have them yet is because quantum hardware is so noisy.
This isn't the type of noise you'd want to shush in a crowded theater. When it comes to computers,
... Show Full Article
BLACKSBURG, Virginia, March 25 (TNSjou) -- Virginia Tech issued the following news:
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Dancing to invisible choreography, quantum computers can balance the noise
When it comes to error sensitivity, quantum computers are huge divas. Virginia Tech physicists devised a technique that draws on hidden quantum geometry to simplify the problem.
By Kelly Izlar
Large-scale quantum computers are waiting in the wings. One of the main reasons we don't have them yet is because quantum hardware is so noisy.
This isn't the type of noise you'd want to shush in a crowded theater. When it comes to computers,noise means errors that crop up when conditions aren't perfect.
"We need to find a way to detect errors and correct for them," said graduate student Evangelos Piliouras. Working with physicist Ed Barnes, Piliouras devised a method to reduce the noise and make quantum computers more noise tolerant. His work was published last month in Nature Partner Journal Quantum Information.
Noise can have real-world implications even in a traditional computer, which uses a stream of electrical signals called bits that represent the 1s and 0s that make up binary code. Noise can knock a 0 into a 1, and a credit card transaction, for instance, might fail.
A quantum computer uses qubits, which are typically subatomic particles such as electrons or photons that can represent many possible combinations of 1 and 0 at the same time.
Occupying multiple states at once is called superposition and gives quantum computers tremendous power. But it's a precarious move to hold.
Researchers get a qubit into superposition using electromagnetic pulses, like a precision laser or microwave beam. Once it's in superposition, even a little bit of noise -- a slight vibration or temperature change -- can cause a qubit to stumble out of superposition like a beginner ballerina.
To keep qubits on point, researchers do their best to protect them from the outside world in supercooled fridges and vacuum chambers. They've experimented with new materials and equipment to minimize noise, but there's only so much that can be done to improve the hardware.
So they found another way: Over the past few decades, physicists discovered that they could lower error rates by tailoring the shape of those electromagnetic pulses that put the qubits into superposition.
This technique is called quantum control, and it's endlessly configurable. The duration, frequency, and intensity of the pulses can be adjusted to change the qubit's state and perform different operations.
"The blessing and the curse of quantum control is that you have infinitely many ways to achieve the same task, but nobody tells you the best way," Piliouras said.
For many years, researchers believed that there was an inherent trade-off in quantum control: You can design the perfect pulse for a certain quantum operation, but the noise would be through the roof.
This is where Barnes, Piliouras, and their team come in: Their solution is built on a framework that describes the shape of the pulse as something cast by a hidden geometrical structure -- as if it were a shadow of a 3D object on a wall. In the field of quantum physics, this perspective is referred to as quantum geometry.
The curves and corners of the invisible shape can dictate the parameters of the pulse, like a dancer's choreography. The Virginia Tech researchers realized that they could simply adjust the shape of a 3D space curve to design a pulse that suppressed noise errors.
"We've been surprised multiple times by how simple and elegant the requirements for noise suppression become once we translate them into this geometric language," Barnes said.
After honing their technique, Barnes and Piliouras teamed up with Hisham Amer, another Virginia Tech graduate student, who was able to verify it by running experiments on IBM's quantum computing hardware.
With these performance improvements, we are one day closer to a large-scale quantum computing premiere.
Original study DOI 10.1038/s41534-026-01190-6
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Original text here: https://news.vt.edu/articles/2026/03/science-quantum-choreography.html
University of Cincinnati: Indirect Costs of Rising Fuel Prices
CINCINNATI, Ohio, March 25 -- The University of Cincinnati posted the following news:
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The indirect costs of rising fuel prices
UC economist explains diesel's impact across sectors
By Emily Glass, glassei@ucmail.uc.edu
WLWT recently reported that the conflict in Iran is sharply raising gas and diesel prices.
The outlet turned to Debashis Pal, David Sinton Professor of Economics at the Lindner College of Business, for a look into how expensive gas can have costly effects across economic sectors.
"The price families pay for fresh produce will go up by 10% to 15%," Pal told WLWT. He said
... Show Full Article
CINCINNATI, Ohio, March 25 -- The University of Cincinnati posted the following news:
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The indirect costs of rising fuel prices
UC economist explains diesel's impact across sectors
By Emily Glass, glassei@ucmail.uc.edu
WLWT recently reported that the conflict in Iran is sharply raising gas and diesel prices.
The outlet turned to Debashis Pal, David Sinton Professor of Economics at the Lindner College of Business, for a look into how expensive gas can have costly effects across economic sectors.
"The price families pay for fresh produce will go up by 10% to 15%," Pal told WLWT. He saidthat this is because diesel fuel is used to transport many goods that people buy every day, and small surcharges for shipping costs can pile up.
"[Families] might cut back on eating out. They might cut back on buying stuff," he added. "The indirect effect will settle in if it continues."
See the full report on WLWT (https://www.wlwt.com/article/fuel-prices-businesses-consumers-greater-cincinnati/70786644).
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Original text here: https://www.uc.edu/news/articles/2026/03/the-indirect-costs-of-rising-fuel-prices.html
UMD Awarded USDA Grant to Advance Bioethanol Waste Conversion
DULUTH, Minnesota, March 25 -- The University of Minnesota Duluth Campus issued the following news:
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UMD awarded USDA grant to advance bioethanol waste conversion
Researchers at the University of Minnesota Duluth (UMD) awarded $650,000 for research into sustainable solutions.
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The University of Minnesota Duluth (UMD) has been awarded a significant grant from the U.S. Department of Agriculture (USDA). The $650,000 award supports innovative research to advance bioethanol waste conversion. The project aims to transform waste from bioethanol production into a replacement for an important
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DULUTH, Minnesota, March 25 -- The University of Minnesota Duluth Campus issued the following news:
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UMD awarded USDA grant to advance bioethanol waste conversion
Researchers at the University of Minnesota Duluth (UMD) awarded $650,000 for research into sustainable solutions.
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The University of Minnesota Duluth (UMD) has been awarded a significant grant from the U.S. Department of Agriculture (USDA). The $650,000 award supports innovative research to advance bioethanol waste conversion. The project aims to transform waste from bioethanol production into a replacement for an importantindustrial commodity not currently produced domestically.
The project is led by Lucas Busta, assistant professor in the Department of Chemistry and Biochemistry in the Swenson College of Science and Engineering (SCSE), who serves as the primary investigator for UMD. The grant represents a collaborative effort between the University of Minnesota Duluth and the University of Nebraska-Lincoln.
This funding will expand research opportunities for both undergraduate and graduate students. Their work will focus on converting bioethanol processing waste into a U.S.-based alternative for an industrial material that is currently imported from Brazil.
"What's especially exciting is that this work not only advances sustainable chemistry, but also strengthens hands-on research experiences for emerging scientists at UMD," said Busta.
The three year project is currently underway, with some preliminary results expected later in 2026.
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Original text here: https://news.d.umn.edu/articles/usda-grant-busta-2026
UC Irvine Researchers Engineer a Light-powered Biohybrid Cardiac Interface
IRVINE, California, March 25 (TNSjou) -- The University of California Irvine campus issued the following news release:
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UC Irvine researchers engineer a light-powered biohybrid cardiac interface
Optoelectronic device may offer benefits in heart drug screening and disease modeling
* UC Irvine researchers have designed a device that makes heart tissue respond to pulses of light.
* Combining polymer layers with heart cells, the invention can be used in the future to test cardiac therapeutics safely and effectively.
* Other possible applications include soft, biocompatible heart patch implants
... Show Full Article
IRVINE, California, March 25 (TNSjou) -- The University of California Irvine campus issued the following news release:
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UC Irvine researchers engineer a light-powered biohybrid cardiac interface
Optoelectronic device may offer benefits in heart drug screening and disease modeling
* UC Irvine researchers have designed a device that makes heart tissue respond to pulses of light.
* Combining polymer layers with heart cells, the invention can be used in the future to test cardiac therapeutics safely and effectively.
* Other possible applications include soft, biocompatible heart patch implantscontrolled by light.
* Funding was provided by the National Heart, Lung and Blood Institute of the National Institutes of Health.
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Researchers at the University of California, Irvine have developed a polymeric biohybrid cardiac device that harnesses the power of light to electrically and mechanically control living heart tissue without the use of metal electrodes.
The innovation represents a leap forward in how scientists study heart disease, test cardiac drugs and potentially treat life-threatening arrhythmias. The project is outlined in a paper published today in the journal Cell Biomaterials.
The invention works by coupling engineered layers of optoelectronic polymer film, which can convert light into an electrical current, directly with living cardiac cells. When pulsed with gentle, visible green light, the material generates photocurrents that stimulate the heart cells to contract in synchrony, mimicking a healthy human heartbeat. The result is a soft, flexible, light-driven biohybrid device that overcomes longstanding limitations of traditional, metal electrode-based cardiac stimulation.
"What we've built is essentially a light-powered interface that speaks in electrical and mechanical pulses, the same language as the heart, without any of the drawbacks of rigid electrodes, such as tissue damage or contamination risk over long-term use," said co-author Herdeline "Digs" Ardona, UC Irvine assistant professor of chemical and biomolecular engineering.
The device is produced by blending and layering conjugated polymers on an elastomeric polymer base, whereby the topmost layer has donor-acceptor junctions capable of generating photocurrents at the surface when illuminated. Another composite material layer serves as an interface between this active layer and the biological environment, improving charge transport, stability in aqueous cell culture conditions and compatibility with living cells.
"When submerged in cell culture medium and illuminated, the polymeric blend generates a charge-transfer state that drives ionic redistribution at the polymer-electrolyte interface - effectively creating a gentle, localized electrical stimulus for heart cells growing on the surface," said lead author Yuyao Kuang, who recently completed a Ph.D. in chemical and biomolecular engineering at UC Irvine. "This photocurrent generation mechanism is distinct from optogenetics, which requires genetic modification of cells to introduce light-sensitive proteins, making our approach applicable to native, unmodified cardiac tissue."
Neonatal rat ventricular myocytes, a standard research model for human cardiac cells, were cultured on the optoelectronic substrate in an anisotropic, micropatterned arrangement that closely mimics the organized fiber architecture of the native heart muscle. The team then fashioned this layered construct into a muscular thin film with a cantilever geometry, allowing the researchers to directly observe and quantify the bending motions produced by cardiac contractions in response to light pulses, a measurement of both electrical pacing and mechanical function.
Ardona said that two of the innovation's most immediately impactful applications are in pharmaceutical drug screening and cardiac disease research. Currently, non-animal-based testing of how a new drug affects heart tissue in the laboratory relies on systems that use either rigid electrodes to pace cardiac contractions, which can introduce artifacts and contamination, or simplified models that don't replicate the complex electromechanical environment of the beating heart.
With the UC Irvine biohybrid platform, researchers can apply a candidate drug directly to the living, light-paced cardiac tissue and observe in real time how the medication affects the heart's response to external electrical pacing and mechanical strain, tissue contractile strength, and even long-term structural remodeling of protein networks inside cells, all in a single, integrated experiment. This creates a far more realistic picture of a drug's true effect on cardiac function than other existing in vitro tools can provide, according to Ardona.
Beyond the laboratory, the team envisions future iterations of this technology serving as implantable cardiac patches, conformable devices that wrap around diseased or damaged heart muscle and deliver precise, light-driven pacing therapy. Because the platform is mechanically compliant and avoids rigid metal components, it's inherently better suited to the soft, constantly moving environment of the heart than conventional pacemaker electrode technologies. The team is working toward versions of this platform that are responsive to longer wavelengths of light, such as near-infrared, which can pass through tissue layers.
Joining Ardona, Kuang and other UC Irvine affiliates for this project were researchers from UC Santa Barbara and Virginia Tech. Funding was provided by the National Heart, Lung and Blood Institute of the National Institutes of Health.
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About the University of California, Irvine: Founded in 1965, UC Irvine is a member of the prestigious Association of American Universities and is ranked among the nation's top 10 public universities by U.S. News & World Report. The campus has produced five Nobel laureates and is known for its academic achievement, premier research, innovation and anteater mascot. Led by Chancellor Howard Gillman, UC Irvine has more than 36,000 students and offers 224 degree programs. It's located in one of the world's safest and most economically vibrant communities and is Orange County's second-largest employer, contributing $7 billion annually to the local economy and $8 billion statewide. For more on UC Irvine, visit www.uci.edu.
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Original text here: https://news.uci.edu/2026/03/24/uc-irvine-researchers-engineer-a-light-powered-biohybrid-cardiac-interface/
Rutgers-Newark Highlights Programs That Fuel Social Mobility
NEWARK, New Jersey, March 25 -- Rutgers University issued the following news:
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Rutgers-Newark Highlights Programs that Fuel Social Mobility
By Carrie Stetler
Rutgers University-Newark is showcasing programs that have supported its U.S. News & World Report ranking as #5 in the nation for social mobility.
For the second consecutive year, the university has continued its reputation as a leader in advancing opportunity, especially for RU-N's many first-generation college students and Pell Grant recipients.
The first floor entrance of Dana Library features posters from 15 programs so that
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NEWARK, New Jersey, March 25 -- Rutgers University issued the following news:
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Rutgers-Newark Highlights Programs that Fuel Social Mobility
By Carrie Stetler
Rutgers University-Newark is showcasing programs that have supported its U.S. News & World Report ranking as #5 in the nation for social mobility.
For the second consecutive year, the university has continued its reputation as a leader in advancing opportunity, especially for RU-N's many first-generation college students and Pell Grant recipients.
The first floor entrance of Dana Library features posters from 15 programs so thatthe campus-wide community can learn more about the initiatives and their success. They will be on display until June.
"This particular exhibition is to bring all students, all faculty, all in so they can have this exposure,'' said Vice Provost Luis Rivera.
Social mobility is defined as the ability to move up the economic and professional ladder. The programs showcased have helped clear a path for students to develop and attain career goals, in addition to finding pathways to graduate school, said Chancellor Tonya Smith-Jackson.
"It's about creating a system where structural barriers--things that get in the way of success--are moved out of the way," she said at the exhibition's opening event.
"All of our students are bright, intelligent people, but there are often challenges that stand in the way of them being able to realize that promise of education. We're going to make sure you're moving on and moving up in your life,'' she added.
Programs featured in the exhibition included Braven, a career accelerator program that partners with Rutgers-Newark and has helped 93 percent of its 158 students in last year find quality jobs with promotion pathways or graduate school programs.
Another program featured is the Sloan Transformations and Advancing Retention Programs (STAR), a summer program which focuses on building pathways to graduate education, particular in geoscience fields. From 2022 to 2024, it has supported 48 students--32 undergraduates and 16 graduate students.
NJ STEP provides higher education opportunities to incarcerated and formerly incarcerated people, addressing stark national disparities in educational attainment. Since its inception in 2012, NJ STEP has awarded 476 associate degrees, 209 bachelor's degrees, 28 master's degrees, and one Ph.D.
Rutgers-Newark's data-driven success at fueling social mobility is a national model, according to Charles Brown, an assistant dean at Rutgers Business School, who leads the Office of Inclusion, Diversity, Equity, and Access (IDEA).
"Our work has impact, and more than anything, it has measurable impact," Brown said. "The work that we're doing is able to be replicated. We get calls all the time from other institutions asking, 'What's the secret sauce? What are you all doing, and how can we replicate it?' We're functioning as leaders in this space."
Students described how the programs shaped their career trajectories. Katherine Rodriguez shared how her work with NewGeo Science Ecosystem program supported her goal of becoming a scientist. She is a research assistant in the Earth & Environmental Science Department, where she is studying groundwater and soil quality. She also landed a job as a Field Scientist and Geophysicist with NOVA Geophysical Services.
Suah Yekeh, a graduate student and graduate assistant in the Earth & Environmental Sciences Department, credits the NewGeo program with helping her pursue an advanced degree. She is studying heavy metal contamination in Newark's urban parks.
"These programs have helped us find a pathway to grad school," said Yekeh.
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Original text here: https://www.newark.rutgers.edu/news/rutgers-newark-highlights-programs-fuel-social-mobility
Penn State-Harrisburg Graduate Student's Research Helps Uncover Early Athletics History
MIDDLETOWN, Pennsylvania, March 25 -- Pennsylvania State University Harrisburg campus issued the following news:
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Harrisburg graduate student's research helps uncover early athletics history
Kendis Butler's American studies project paved the way for Jim Baker's Penn State Harrisburg Hall of Fame induction
By Manal Negm Mohamed
A Penn State Harrisburg graduate student's research helped uncover the basketball history of 1976 alum Jim Baker, paving the way for his induction into the campus Athletics Hall of Fame.
Kendis Butler, a Harrisburg alum and a master's student in the American studies
... Show Full Article
MIDDLETOWN, Pennsylvania, March 25 -- Pennsylvania State University Harrisburg campus issued the following news:
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Harrisburg graduate student's research helps uncover early athletics history
Kendis Butler's American studies project paved the way for Jim Baker's Penn State Harrisburg Hall of Fame induction
By Manal Negm Mohamed
A Penn State Harrisburg graduate student's research helped uncover the basketball history of 1976 alum Jim Baker, paving the way for his induction into the campus Athletics Hall of Fame.
Kendis Butler, a Harrisburg alum and a master's student in the American studiesprogram, worked to reveal Baker's athletic accomplishments as part of a project to archive the early years of athletics at Penn State Harrisburg.
"Research and archiving are not easy," she said. "You hit a lot of roadblocks, but thankfully, in Jim Baker's situation, we were able to confirm what we believed was true and see what research and archiving can do, not just for athletics or the school, but also for somebody and his family. Seeing his hard work recognized was amazing and fulfilling."
Butler earned her undergraduate degree at Penn State Harrisburg in communications with a minor in American studies in spring of 2023. As an undergraduate, she worked as a student worker in the sports information department and continued working there part-time for two years after graduating.
Now working in the athletic communications department as a graduate assistant, Butler has been archiving athletics at Penn State Harrisburg from 1966 to 1992 -- what she called the "first wave" of athletics at Penn State Harrisburg.
Butler said the project grew out of conversations about how her graduate assistantship could connect with her academic work. She said Rahsaan Carlton, director of athletics, suggested she try to archive what he described as "lost history."
During the summer, Butler -- who played basketball herself as an undergraduate -- spent much of her time in the Madlyn L. Hanes Library reviewing student newspapers, local newspapers, scorebooks from different seasons and media guides.
She also reached out to alumni and former coaches, some of whom shared documents they had kept for many years.
"The work can be challenging because information is not stored in one place," Butler said. She described the process as "a treasure hunt" and said she encountered conflicting information in sources such as student newspapers and yearbooks.
Her research on Baker -- who played basketball for the college from 1974 to 1976 and was an assistant coach and head coach later -- grew from that same effort to verify early athletic records. The athletics department was considering Baker for the Hall of Fame, but the challenge was finding documentation to confirm Baker's accomplishments.
"For the Hall of Fame, which is just two years old now, we want to verify the information is correct so their accomplishments are fully appreciated and recognized," she said.
Butler said one of the main goals of the summer was to find records that could confirm Baker's history. She found a scorebook from one of the years Baker played and reviewed it game by game, calculating the points and totaling them at the end of the season.
She also found a plaque in a back room of the Capital Union Building that listed a points total for Baker from a year for which they did not have a scorebook. When the totals were combined, they confirmed Baker scored 1,260 points in two years.
Butler also found scorebooks from the period when Baker coached, which allowed her to confirm his coaching record.
"We hear a lot of great things through word of mouth," she said. "One of the challenges is always going to be confirming these accounts with concrete statistical data. It was rewarding to be able to do that in Jim's case, resulting in him being inducted into the Hall of Fame."
Butler and Thomas Klemick, director of athletic communications, met with Baker to help fill in gaps in her research.
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Original text here: https://harrisburg.psu.edu/story/56806/2026/03/24/harrisburg-graduate-students-research-helps-uncover-early-athletics-history
Andy Cohen to Give WashU's 165th Commencement Address
ST. LOUIS, Missouri, March 25 -- Washington University in St. Louis issued the following news:
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Andy Cohen to give WashU's 165th Commencement address
By Diane Toroian Keaggy, diane.keaggy@wustl.edu
Emmy Award-winning host, producer and author Andy Cohen will return to his native St. Louis to deliver the 2026 WashU Commencement address.
Chancellor Andrew D. Martin and Cohen beamed the news from the Manhattan set of "Watch What Happens Live," Cohen's popular late-night talk show, to the Brookings Quadrangle, where hundreds of graduating students gathered March 24 for the class toast.
"Seniors,
... Show Full Article
ST. LOUIS, Missouri, March 25 -- Washington University in St. Louis issued the following news:
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Andy Cohen to give WashU's 165th Commencement address
By Diane Toroian Keaggy, diane.keaggy@wustl.edu
Emmy Award-winning host, producer and author Andy Cohen will return to his native St. Louis to deliver the 2026 WashU Commencement address.
Chancellor Andrew D. Martin and Cohen beamed the news from the Manhattan set of "Watch What Happens Live," Cohen's popular late-night talk show, to the Brookings Quadrangle, where hundreds of graduating students gathered March 24 for the class toast.
"Seniors,I'll see you May 15. I'll bring the Imo's and the Busch beer," Cohen promised.
The university's 165th Commencement ceremony will begin at 9 a.m. May 15 on Francis Olympic Field on the Danforth Campus. Cohen, who will receive an honorary Doctor of Fine Arts during the ceremony, will address the Class of 2026 and their friends and family members. Roughly 5,000 undergraduate, graduate and professional students are set to graduate this academic year.
Since 2009, Cohen has welcomed the biggest names in entertainment, politics and pop culture to "Watch What Happens Live." Cohen also serves as an executive producer of Bravo's "The Real Housewives" franchise and has helped launch a dynamic slate of unscripted series and specials, including hits such as "Top Chef," "Queer Eye for the Straight Guy," "Project Runway," "Shahs of Sunset" and "Million Dollar Listing." Every year, millions of viewers ring in the new year with Cohen and friend Anderson Cooper, co-hosts of CNN's "New Year's Eve Live" special.
Cohen is the recipient of the Vito Russo Award by GLAAD and has been recognized in The Hollywood Reporter's and Variety's Most Powerful LGBTQ Players in Hollywood lists.
Cohen received a star on the Hollywood Walk of Fame in 2022; the St. Louis Walk of Fame followed suit in 2023. Cohen grew up in Clayton and graduated from nearby Clayton High School in 1986.
The university also has named five other honorary degree recipients:
* Kwofe Coleman, president and CEO of the Municipal Theatre Association of St. Louis (The Muny) and board president emeritus of the National Alliance for Musical Theatre, Doctor of Arts;
* Deborah E. Lipstadt, the Dorot Professor of Modern Jewish History and Holocaust Studies at Emory University and former U.S. State Department special envoy to monitor and combat antisemitism, Doctor of Humane Letters;
* Michael McDonald, five-time Grammy winner, 2020 Rock & Roll Hall of Fame inductee, Doobie Brothers lead singer, keyboardist and songwriter, solo artist and St. Louis native, Doctor of Fine Arts;
* Marcus Raichle, MD, the Alan A. and Edith L. Wolff Distinguished Professor of Medicine at WashU Medicine and winner of the Kavli Prize in Neuroscience, Doctor of Medicine
* Anabeth and John Weil, philanthropic champions of WashU, the Central Institute for the Deaf, New City School, the Saint Louis Art Museum and other St. Louis institutions, Doctor of Fine Arts
Susan Stiritz, a professor emerita at the Brown School, will serve as honorary grand marshal. The undergraduate student speaker will be Mason Shaver, who is majoring in political science and in educational studies in Arts & Sciences. The graduate speaker will be Sejal Popat, who is completing a master's in fine arts degree in illustration and visual culture from the Sam Fox School of Design & Visual Arts.
The Commencement ceremony will be followed by a festival stretching from Francis Field on the west end of the Danforth Campus to Tisch Park on the east end. The festival will feature lawn games, photo booths, live entertainment and food from St. Louis eateries.
For more information, visit the Commencement website (https://commencement.wustl.edu/?_ga=2.264843151.1649817095.1774438887-798516010.1768048305).
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Original text here: https://source.washu.edu/2026/03/andy-cohen-to-give-washus-165th-commencement-address/
