Harvesting UV Light from sunlight just got ‘solid’

New solid-state material from Kyushu University turns visible light into high-energy UV at sunlight intensity, expanding solar energy potential

Kyushu University

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A new solid-state material from Kyushu University turns visible light into high-energy UV at sunlight intensity. By attaching alkyl chains to the sp³ carbon atoms of an organic molecule, the researchers create precisely controlled gaps between neighboring molecules. This spacing enables efficient triplet energy transfer, achieving a quantum yield above 60% in the solid state. When combined with a donor molecule, the system reaches 1.9% visible-to-UV upconversion efficiency.

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Credit: Naoyuki Harada / Kyushu University

Fukuoka, Japan—Two cups of warm water don’t make one cup of boiling water. But in the quantum world, multiple low-energy photons can combine to produce a single, higher-energy photon.

A research team at Kyushu University has developed a solid-state molecular material that “upgrades” visible light into ultraviolet (UV) light under ordinary outdoor sunlight, achieving a conversion efficiency of 1.9%. The study was published in Nature Communications on June 23.

Harsh UV light is something most people try to avoid in summer, yet it is indispensable across fields ranging from air purification and resin curing in 3D printing to gel hardening in dental fillings and nail art. Despite its importance, UV accounts for only about 6% of the sunlight reaching Earth’s surface, with only a fraction of that being practically usable.

“What we do here is ‘add together’ the energy from two visible light photons to make one ultraviolet photon. It’s a fascinating process called photo upconversion,” explains Yoichi Sasaki, Associate Professor at Kyushu University’s Faculty of Engineering and the study’s corresponding author.

One mechanism that enables such upconversion is triplet-triplet annihilation (TTA). A “donor” molecule absorbs visible light and excites its electrons into a high-energy triplet state, then passes it to a neighboring “acceptor” molecule. When two triplets meet, they annihilate each other, releasing their combined energy as a UV photon. TTA works well in liquids, where molecules move freely, and triplets collide easily. But those systems often rely on toxic solvents and can evaporate, limiting their practical use. That is why scientists have long searched for solid alternatives.

“In solids, molecules are packed tightly, and the π electron clouds—regions of high electron density hovering above and below each molecular plane—can overlap,” says Sasaki. “When that happens, triplets easily fizzle out before they ever meet. Molecules must be close enough for energy to transfer but separated enough to prevent quenching of excitons.”

The team found their answer in an organic semiconductor called dihydroindenoindenedene (DHI). By attaching alkyl chains to DHI’s sp³ carbon atoms—which have four bonds pointing in fixed 3D directions—the researchers created precisely controlled gaps between neighboring molecules, keeping them close enough for energy transfer without unwanted strong electronic interaction.

The optimized material shows strong light emission, long-lived excited states, and efficient energy transfer, achieving a solid-state fluorescence quantum yield above 60%. With a donor molecule, the system reaches an upconversion efficiency of 1.9%.

“This means roughly two UV photons are produced for every hundred visible-light photons absorbed,” Sasaki adds. “It may sound low, but it runs on natural sunlight alone. Most solid-state materials cannot realize this even at much higher light intensity.”

The material has been filed for a patent. Beyond efficiency, it offers advantages for real-world use, including straightforward synthesis and low-cost starting materials. The team sees potential applications in solar-driven photocatalysis, indoor air purification, and low-intensity 3D printing.

For the research team, the work also carries personal weight.

In 2012, Nobuo Kimizuka, now Professor Emeritus at Kyushu University’s Research Center for Negative Emissions Technologies, pioneered research into photon upconversion via triplet energy migration in self-assemblies, seeking to establish a molecular systems chemistry where self-assembly performs useful functions. His team made steady progress in both solution and gel systems, yet developing efficient solid-state upconversion systems remained challenging. A breakthrough finally came in May 2024, less than a year before Kimizuka’s retirement.

What followed was a sprint driven as much by shared bonds and gratitude as by science. At that time, graduate students Naoyuki Harada, Hayato Shoyama, Nutnicha Boonmong, along with then-Assistant Professor Kiichi Mizukami of Kyushu University’s Faculty of Engineering, worked alongside Sasaki to compress years of work into one.

“We handed the draft to Professor Kimizuka just 11 days before he left the lab, which for us felt like a heartfelt retirement gift,” Sasaki notes.

“This discovery is the culmination of over 14 years of our research and marks a major milestone in photon-upconversion and molecular self-assembly research,” concludes Kimizuka.

 

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For more information about this research, see “Sterically protected π-electron systems for efficient solid-state photon upconversion,” Naoyuki Harada, Hayato Shoyama, Nutnicha Boonmong, Kiichi Mizukami, Yuya Watanabe, Pei Zhao, Masahiro Ehara, Yoichi Sasaki, Nobuo Kimizuka, Nature Communications, https://doi.org/10.1038/s41467-026-73898-0

About Kyushu University 
Founded in 1911, Kyushu University is one of Japan's leading research-oriented institutions of higher education, consistently ranking as one of the top ten Japanese universities in the Times Higher Education World University Rankings and the QS World Rankings. Located in Fukuoka, on the island of Kyushu—the most southwestern of Japan’s four main islands—Kyushu U sits in a coastal metropolis frequently ranked among the world’s most livable cities and historically known as Japan’s gateway to Asia. Its multiple campuses are home to around 19,000 students and 8,000 faculty and staff. Through its VISION 2030, Kyushu U will “drive social change with integrative knowledge.” By fusing the spectrum of knowledge, from the humanities and arts to engineering and medical sciences, Kyushu U will strengthen its research in the key areas of decarbonization, medicine and health, and environment and food, to tackle society’s most pressing issues.

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Journal

Nature Communications

DOI

10.1038/s41467-026-73898-0 

Method of Research

Experimental study

Subject of Research

Not applicable

Article Title

Sterically protected π-electron systems for efficient solid-state photon upconversion

Article Publication Date

23-Jun-2026

 

New global study reveals link between local-scale species changes and global extinction risk

University of St. Andrews

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An assembly of tropical fish 

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Credit: University of St Andrews

New research from the University of St Andrews has shown that higher extinction risk is associated with higher frequency of decreasing local prevalence of species, in an analysis of one of the most comprehensive long-term databases ever created, BioTIME – a major tool to study biodiversity change also developed at the University of St Andrews. 

Published today (23 June) in Nature Communications, researchers from the School of Biology alongside a team of international partners, analysed over 60 000 populations of 2362 species across 978 marine and terrestrial assemblages. These populations have been sampled comprehensively over at least 20 years. 

An assemblage refers to a group of species from the same taxonomic group that co-occur within the same geographic location and time period, such as, a bird or fish assemblage. Analysing assemblage-level data allows us to systematically quantify change over time for many species and populations, and identify which ones might be faring better, i.e. assessing the “winners and losers” amidst ongoing global change. 

The analysis matched each population’s temporal prevalence trend with each species’ extinction risk from the International Union for Conservation of Nature (IUCN) Red List. The picture that emerged was of complex links between the two factors, but a clear signal also emerged that decreasing temporal trends were associated with higher extinction risk compared to the other trends. Overall, fewer than 10% of populations showed either increasing or decreasing prevalence over time 

Joint lead Author, Dr Faye Moyes from the School of Biology at the University of St Andrews, said: “Our results highlight the importance of assemblage level monitoring in conservation strategies and shows the value of long-term time series such as those in BioTIME. “ 

Joint lead Author, Laura Antão, based at the University of Turku in Finland, added “We have assessed for the first time whether there is a consistent signal between population temporal trends and a species extinction risk status using assemblage monitoring data, rather than ‘dedicated’ species-level assessments. Finding a clear signal that decreasing prevalence is usually associated with a higher risk of extinction is a strong indication that we can detect impacts even for species that are not currently classified as at risk”. 

As global environmental change continues to accelerate, extinction risks are rising and  assemblages are being reorganised across taxa, biomes and realms. The team also revealed complex links between local temporal prevalence and extinction risk categories: some populations of threatened species could have stable or increasing trends, while non-threatened species could be decreasing. A better understanding of the processes that underpin such biodiversity changes is crucial for improving predictions and conservation strategies. 

Professor Anne Magurran, a senior author of the study, added: “These temporal trends could serve as early‑warning indicators and help target both new monitoring efforts and conservation actions. For instance, stable populations of at-risk species are of key conservation interest, while declining trends might highlight species that are missing from extinction risk assessments”. 

Professor Maria Dornelas added: “Because the task of assessing biodiversity change is gigantic, and we cannot travel in time to collect more data in the past, we want to use all information available. These two large biodiversity databases have only limited overlap and this study shows us how we can leverage both to expand our understanding of biodiversity change.” 

 

ENDS

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Journal

Nature Communications

DOI

10.1038/s41467-026-74132-7 

Subject of Research

Animals

Article Title

Linking species local trends from assemblage monitoring to global extinction risk

Article Publication Date

23-Jun-2026

 

Can use of popular weight loss medications reduce behaviors linked to violent crime?

Wiley

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Glucagon-like peptide-1 receptor agonists (GLP-1 RAs) are widely prescribed for diabetes and obesity, but studies have found evidence that the medications may also influence behavior, such as supporting impulse control and reducing substance use and alcohol consumption by potentially interacting with the brain’s reward and stress systems. New research in Criminology adds to this growing evidence.

When investigators analyzed data from a 2025 nationally representative US survey involving 821 adults who had ever used GLP-1 medications, they found that while impulsivity and alcohol use were strongly associated with committing violent crime, these associations were significantly weaker among current GLP-1 RA users compared with former users. So even when a GLP-1 RA user drinks or acts impulsively, the situation is less likely to escalate into engaging in violent criminality. More thorough analyses showed that this finding was especially consistent related to impulsivity, but less so with alcohol use.

The findings suggest that GLP-1 RAs may lessen the extent to which certain established risk factors translate into violent behavior.

“As GLP-1 medications become increasingly widespread, understanding their broader behavioral effects becomes an important public health and criminological question that requires careful study,” said corresponding author Daniel C. Semenza, PhD, of Rutgers University.

URL upon publication: https://onlinelibrary.wiley.com/doi/10.1111/1745-9125.70058

 

Additional Information
NOTE: The information contained in this release is protected by copyright. Please include journal attribution in all coverage. For more information or to obtain a PDF of any study, please contact: Sara Henning-Stout, newsroom@wiley.com.

About the Journal
Criminology is devoted to the study of crime and deviant behavior. Interdisciplinary in scope, the journal publishes articles that advance the theoretical and research agenda of criminology and criminal justice.

About Wiley      
Wiley is a global leader in authoritative content and research intelligence for the advancement of scientific discovery, innovation, and learning. With more than 200 years at the center of the scholarly ecosystem, Wiley combines trusted publishing heritage with AI-powered platforms to transform how knowledge is discovered, accessed, and applied. From individual researchers and students to Fortune 500 R&D teams, Wiley enables the transformation of scientific breakthroughs into real-world impact. From knowledge to impact—Wiley is redefining what's possible in science and learning. Visit us at Wiley.com and Investors.Wiley.com. Follow us on Facebook, X, LinkedIn and Instagram.

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Journal

Criminology

DOI

10.1111/1745-9125.70058 

Article Title

GLP-1 receptor agonist use and violent crime among US adults

Article Publication Date

17-Jun-2026

Researchers link use of GLP-1 medications to lower risk of violence

A Rutgers study finds that treatments such as Ozempic and Wegovy may diminish the link between impulsivity and violent behavior

Rutgers University

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The use of GLP-1 medications commonly prescribed for weight loss or managing diabetes may have effects that extend beyond metabolic health, including on behaviors linked to violence, according to Rutgers researchers.

Their study, published in Criminology, examined whether the use of GLP-1 receptor agonist medications, such as Ozempic and Wegovy, influences violent criminal behavior among adults by moderating the effects of impulsivity and alcohol intake.

Researchers analyzed data from a 2025 survey of 7,521 U.S. adults and focused their primary analyses on 821 individuals who had ever used a GLP-1 medication. The study compared current GLP-1 users with former users and examined whether medication use changed the relationship between violent behavior, impulsivity and alcohol use. Violent behavior was measured using a validated self-reported offending scale assessing behaviors such as fighting, assault and robbery.

“The strongest finding in the study was that the well-established link between impulsivity and violent behavior was substantially weaker among current GLP-1 users compared to former users,” said Daniel Semenza, the lead author of the study as well as the director of research at the New Jersey Gun Violence Research Center at the Rutgers School of Public Health and an associate professor with the Rutgers School of Public Health. “As GLP-1 drugs become increasingly widespread, it is important to understand all of their potential behavioral effects, including those relevant to public safety,” Semenza said.

Researchers found that higher impulsivity and alcohol use were strongly associated with violent behavior overall, but those relationships were significantly weaker among current GLP-1 users. The association between impulsivity and violent behavior was about 62% weaker among current users compared with former users. The relationship between alcohol use and violent behavior was about 52% weaker among current users, although those findings were less consistent across sensitivity analyses.

“Our findings are consistent with these medications working like cognitive behavioral therapy, weakening the path from impulse to action rather than eliminating impulsivity itself,” said Christopher Thomas, an assistant professor at Rutgers University-Camden and the coauthor of the study.

The study was observational and cross-sectional, meaning causal conclusions cannot be drawn, the researchers said. They emphasized the need for future longitudinal and experimental studies to determine whether GLP-1 medications reduce violence risk and to better understand the mechanisms involved.

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Journal

Criminology

Method of Research

Survey

Subject of Research

People

Article Title

GLP-1 receptor agonist use and violent crime among US adults

Article Publication Date

17-Jun-2026

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