Thursday, June 04, 2026

 

KRICT improves efficiency and durability of nickel-based SOECs for electrochemical CO₂ conversion



KRICT resolves high-temperature electrolyte delamination in SOECs using a scalable composite interlayer and simple dip-coating process, enabling highly efficient and durable CO₂-to-CO electrolysis




National Research Council of Science & Technology

KRICT Research Team 

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(from left) Dr. Ji Hoon Park, Dr. Jin Hee Lee, KRICT-UST student researcher Rustam Yuldashev, Dr. Min-Chul Kim, Researcher Jong-Min Kwak and Won-Bin Nam

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Credit: Korea Research Institute of Chemical Technology(KRICT)





A Korean research team has resolved a major durability issue in solid oxide electrolysis cells (SOECs), a technology that converts carbon dioxide (CO₂) into high-value chemical feedstocks.

Researchers at the Korea Research Institute of Chemical Technology (KRICT, President Seok-Min Shin), led by Drs. Min-Chul Kim, Ji Hoon Park, and Jin Hee Lee, developed a new electrolyte interface engineering technology for nickel-based SOECs. By redesigning the internal electrolyte interface structure, the team successfully prevented electrolyte layer cracking during high-temperature operation and achieved highly efficient conversion of CO₂ into carbon monoxide (CO).

SOECs are electrochemical devices that convert CO₂ into CO using electricity. The resulting CO serves as a key feedstock for syngas (CO + H₂), which can be utilized to produce sustainable aviation fuel (SAF), methanol, plastics, and industrial chemical materials.

A critical component of SOECs is the oxygen-ion-conducting electrolyte positioned between the electrodes. High-performance SOECs commonly employ two electrolyte materials together: yttria-stabilized zirconia (YSZ) and gadolinium-doped ceria (GDC). YSZ offers excellent durability but relatively low oxygen-ion conductivity, whereas GDC provides superior ionic conductivity but lower structural stability, enabling improved CO₂ conversion performance when combined.

However, the two materials exhibit different thermal expansion and shrinkage behaviors at high temperatures, causing interfacial delamination between the electrolyte layers during operation. This issue significantly degrades long-term durability and electrochemical performance. Although expensive deposition techniques such as physical vapor deposition (PVD) and pulsed laser deposition (PLD) have been explored to address this challenge, they remain costly and difficult to scale for large-area commercialization.

Instead of relying on high-cost equipment, the KRICT team employed a simple dip-coating process to form a composite intermediate layer composed of mixed YSZ and GDC powders, effectively suppressing interfacial delamination.

In simple terms, the researchers inserted a “buffer cushion layer” between the two different electrolyte materials. This composite intermediate layer absorbs thermal deformation differences, maintaining structural stability even under high-temperature conditions. During the process, the composite layer forms a new solid-solution structure that simultaneously enhances oxygen-ion transport and interfacial adhesion.

One of the key SOEC performance indicators is Faradaic efficiency, which represents how efficiently the supplied electricity is utilized to convert CO₂ into CO. Conventional SOECs typically exhibit Faradaic efficiencies of approximately 80–90%. The newly developed SOEC maintained 91% of its initial performance after 80 hours of continuous operation under a harsh 1.6 V condition, demonstrating exceptional durability along with world-class Faradaic efficiency.

The technology also significantly improved current density, a metric indicating how rapidly CO₂ can be processed per unit area. The current density increased from 0.59 to 2.14 A/cm², representing approximately a 3.6-fold improvement and achieving one of the highest performances reported for nickel-based SOECs.

In this study, the research team verified scalable fabrication conditions using coin-sized small cells and is currently expanding the technology to smartphone-sized flat-tubular cells. Because the process enables large-area manufacturing without expensive equipment, it is expected to facilitate future scale-up of electricity-driven industrial CO₂ utilization systems. However, further research on large-scale stack fabrication and renewable energy integration will still be required for commercialization.

KRICT President Seok-Min Shin stated, “This achievement simultaneously addresses the durability issue that has hindered both the commercialization and CO₂ conversion efficiency of solid oxide electrolysis cells.”

 

The study was published as the back cover article in the March 2026 issue of Advanced Science (Impact Factor: 14.1). KRICT-UST student researcher Rustam Yuldashev participated as the first author, while Drs. Min-Chul Kim, Ji Hoon Park, and Jin Hee Lee served as corresponding authors.

  

Schematic illustration of improved interfacial delamination and enhanced CO₂ electrolysis performance achieved by a composite electrolyte layer.

Customized Electrolyte Slurry Solution for Securing Interfacial Stability in Ni-Based SOECs 

Customized electrolyte slurry solution product for securing interfacial stability in Ni-based SOECs, a coin-sized small cell, and a flat-tubular cell currently under development for scale-up.

Credit

Korea Research Institute of Chemical Technology(KRICT)

###

KRICT is a non-profit research institute funded by the Korean government. Since its foundation in 1976, KRICT has played a leading role in advancing national chemical technologies in the fields of chemistry, material science, environmental science, and chemical engineering. Now, KRICT is moving forward to become a globally leading research institute tackling the most challenging issues in the field of Chemistry and Engineering and will continue to fulfill its role in developing chemical technologies that benefit the entire world and contribute to maintaining a healthy planet. More detailed information on KRICT can be found at https://www.krict.re.kr/eng/

The research was supported KRICT’s institutional research program and the Korea Environment Industry & Technology Institute (KEITI) project for Intelligent Optimum Reduction and Management of Industrial Fine Dust (RS-2023-00219435).

 

Parental cooperation with the kindergarten is the most important way to support preschoolers' academic skills



Estonian Research Council
Anne-Mai Meesak 

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Anne-Mai Meesak

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Credit: Marten Puidak, Tallinn University





Research into the academic skills of five-year-old children shows that parents' beliefs and cooperation with their kindergarten are more important than the abundance of parental activities at home in supporting the academic skills of five-year-old children.

 

The study, conducted by Anne-Mai Meesak, Doctorate in Educational Sciences, involved more than 500 five-year-old children and 300 parents. The study assessed children's cognitive processes (i.e. attention and perception, working memory, thinking) and learning, language and mathematical skills individually on a tablet using an e-assessment tool for child development (LAHE). At the same time, parents answered a questionnaire about their beliefs, expectations, cooperation with their kindergarten and activities at home.

To verify the suitability of the assessment tool for assessing children's early skills, the children's results were also compared with teachers' assessments of the same areas. The teachers' assessments and the children's actual results were found to be largely similar. The exception was study skills, which may be more difficult for teachers to assess, as they were based on children's own assessments of their own interest, perceived ability and confidence levels.

The results showed that although children's early cognitive, learning, language and mathematical skills are interlinked, they can also be distinguished and assessed separately. Children's academic skills were significantly predicted by their own cognitive processes and learning skills. Although girls performed slightly better in language skills and Russian-speaking children scored slightly higher in study skills, the skills of Estonian five-year-olds were generally quite similar.

 

Parental beliefs and behaviour

The study’s most telling finding concerns parents' beliefs about their children. Parents who perceived their children as having cognitive difficulties engaged in the least amount of activities at home that supported their children’s skills. This means that the children who needed the most support received the least at home. At the same time, the amount of home activities did not depend on the parents’ educational level.

The study also revealed an interesting connection. Although higher parental expectations regarding the skills children need for school were associated with more frequent home activities, neither parental expectations nor home activities were linked to children's actual performance in language and mathematics. Instead, the parents’ active participation in kindergarten activities proved to be important. This supported both the children's academic skills and encouraged parents to contribute more to shared activities with their child at home.

 

What do the results show?

The results suggest that early childhood education in Estonia plays an important role in supporting children's early skills. Most five-year-olds in Estonia attend kindergarten, where learning and educational activities are play-based and follow the national curriculum, which allows children with different home backgrounds to achieve similar academic results. This ensures the equality and quality of early childhood education in Estonia.

From the societal aspect, the research highlights two findings that help ensure a child’s holistic development. Firstly, it is important to support parents in recognising their children's strengths and weaknesses, so that they can better support their children's early learning. Secondly, parents should be actively involved in kindergarten activities. Therefore, the research confirms that a child’s development is best supported by strong cooperation between home and kindergarten.

 

Announcement of winners for the fifth “Marie Sklodowska Curie Award”



Japan Science and Technology Agency
The Marie Sklodowska Curie Award 

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JST has selected winners for the fifth Marie Sklodowska Curie Award for young female researchers.

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Credit: Japan Science and Technology Agency





The Japan Science and Technology Agency (JST) has selected winners for the Fifth Marie Sklodowska Curie Award for young female researchers.

For the Fifth Marie Sklodowska Curie Award, we accepted applications from October 1 to December 10, 2025. Through document screenings and interviews with external experts, we have selected one Grand Prize winner and two Inspiration Prize winners. In addition, considering the efforts of other applicants who meet the criteria for the award and deserve appreciation, we also selected one Recognition Prize winner.

JEOL Ltd. will award 1M yen for the Grand Prize, 500K yen for each Inspiration Prize, and 300K yen for the Recognition Prize. In addition, the Grand Prize winner will be offered an opportunity to visit research institutions in Poland—where Maria was born and raised—through the Embassy of the Republic of Poland in Japan and the Polish Academy of Sciences.

The Winners of the Fifth Marie Sklodowska Curie Award  

Grand Prize Winner

Yuko Kuroki

Data & AI Researcher, Intesa Sanpaolo AI Research (Italy)

Research field: Information Science

Inspiration Prize Winners

Ami Kobayashi

Distinguished Senior Assistant Professor (Principal Investigator), Department of Medical Science and Innovation, Institute of Medical Research, Tohoku University

Research field: Neuroscience

Sonomi Yamaguchi

HFSP Postdoctoral Fellow, Department of Cancer Immunology and Virology,  Dana-Farber Cancer Institute (United States of America)

Research field: Phage Biology, Structural Biology, Biochemistry

Recognition Prize Winner

Mariko Morimoto

Assistant Professor, Department of Chemistry and Biochemistry, University of Notre Dame (United States of America)

Research field: Chemical Biology, Immunology, Cancer Biology


Winners for the fifth Marie Sklodowska Curie Award 

From top left: Dr. Kuroki; top right: Dr. Kobayashi; bottom left: Dr. Yamaguchi; bottom right: Dr. Morimoto.

Credit

Japan Science and Technology Agency

About the Marie Sklodowska Curie Award

JST recognizes the importance of initiatives designed to promote the activities of female researchers in science, technology, and innovation, and based on this belief we established the “Marie Sklodowska Curie Award” in 2021, together with the Embassy of the Republic of Poland, for awarding young female researchers who are expected to flourish across the world. The award’s namesake, Dr. Marie Sklodowska Curie, was recognized for her achievements in her early thirties and later won two Nobel Prizes. The award honors her great contribution and achievements to the development of science and technology, and we hope her example will inspire the ambitions of Japanese female researchers.

While the latter half of the doctoral program and the first few years after obtaining doctoral degrees are the most promising period for female researchers to make great strides as independent researchers, it is also true that they often face various life events during this period. By honoring the achievements of the winners and making them widely recognized, we hope that this award will support them to take a leap forward with their passion and flexibility as well as to foster the next generation of female researchers.

For more information, please refer to the website.

URL: https://www.jst.go.jp/diversity/en/OurEfforts/mscaward/index.html



Five UJI researchers rank among the 300 most prominent women scientists in Spain



Marisa Salanova ranks first among women scientists from Castelló. She leads the WANT research group and focuses her research on the field of occupational health psychology




Universitat Jaume I

Five UJI researchers rank among the 300 most prominent women scientists in Spain 

image: 

The researcher Marisa Salanova, in the center, ranks first among women scientists from Castelló. She leads the WANT research group and focuses her research on the field of occupational health psychology.

Five researchers from the Universitat Jaume I of Castelló in the fields of psychology and chemistry have ranked among the top 300 Spanish and international women scientists working in Spain, according to a ranking based on public Google Scholar profiles and equivalent OpenAlex indicators.

The highest-ranked UJI researcher is Professor Marisa Salanova, while Associate Professor Isabel M. Martínez ranks third among the university’s researchers. Both carry out their research in the field of social psychology within the WANT research team on Psychosocial Prevention and Healthy Organisations at the UJI (www.want.uji.es), which in recent years has focused on occupational health psychology.

Through competitive research projects and consultancy activities for companies on psychosocial risk prevention, training and applied positive psychology, the group promotes psychosocial and financial health in organisations, as well as resilience in situations of crisis and rapid change.

The team has developed the HERO scientific model and several diagnostic tools that make it possible to assess the state of organisations and help work teams proactively and systematically plan best practices and resources to improve tasks, the social environment and organisational climate. According to Marisa Salanova, director of the research team, “this ranking helps increase the visibility of the scientific impact of the research carried out at the UJI in psychology and psychosocial health”.

Cristina Botella, founder of the Psychology and Technology Laboratory (LabPsiTec) and emeritus professor, considered the first Spanish researcher in applied psychology, together with the current laboratory director, Professor of Psychopathology Azucena García Palacios, rank second and fourth among UJI researchers. LabPsiTec investigates the possibilities that new information and communication technologies offer for clinical psychology practice.

For more than twenty-five years, the laboratory has tested tools such as virtual and augmented reality and mobile systems for clinical assessment and treatment. Professor Cristina Botella pioneered this line of work focused on different areas related to health, quality of life and personal and social wellbeing. Professor García Palacios has focused on developing intervention programmes and leading research lines devoted to personality disorders and chronic pain.

Finally, researcher María Ibáñez Martínez, from the Area of Analytical Chemistry, ranks fifth among UJI researchers. She is a member of the Public Health and Environmental Analytical Chemistry research group and the University Institute of Pesticides and Water Resources (IUPA). Her research focuses on the use of modern hybrid chromatography/mass spectrometry techniques (LC-MS), mainly high-resolution mass spectrometry (HRMS), for the control, identification, confirmation and quantification of contaminants and other organic compounds in environmental, food and biological samples. She also leads numerous GLP studies at the IUPA Pesticide Residue Analysis Laboratory.

The ranking, compiled by Isidro F. Aguillo at the Cybermetrics Lab of the Institute of Public Goods and Policies of the Spanish National Research Council (IPP-CSIC), aims to increase the visibility of women researchers through open-access platforms such as Google Scholar, ORCID and OpenAlex, which provide broader coverage than other bibliometric sources, including subscription-based databases. It also seeks to promote open infrastructures through the wider use of personal ORCID identifiers and institutional ROR identifiers.

The 2026 edition of the ranking includes a total of 12,110 researchers ranked according to the global impact of their research, 122 of whom belong to the public university of Castelló. The full ranking can be consulted in the author’s publication.

Publication

Aguillo, Isidro F. (2026). Ranking de mujeres investigadoras españolas y en España. Edición GS-ORCID OPENALEX Abril 2026. figshare. Preprint. https://doi.org/10.6084/m9.figshare.32063853.v5

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Credit: Universitat Jaume I of Castellón




Five researchers from the Universitat Jaume I of Castelló in the fields of psychology and chemistry have ranked among the top 300 Spanish and international women scientists working in Spain, according to a ranking based on public Google Scholar profiles and equivalent OpenAlex indicators.

The highest-ranked UJI researcher is Professor Marisa Salanova, while Associate Professor Isabel M. Martínez ranks third among the university’s researchers. Both carry out their research in the field of social psychology within the WANT research team on Psychosocial Prevention and Healthy Organisations at the UJI (www.want.uji.es), which in recent years has focused on occupational health psychology.

Through competitive research projects and consultancy activities for companies on psychosocial risk prevention, training and applied positive psychology, the group promotes psychosocial and financial health in organisations, as well as resilience in situations of crisis and rapid change.

The team has developed the HERO scientific model and several diagnostic tools that make it possible to assess the state of organisations and help work teams proactively and systematically plan best practices and resources to improve tasks, the social environment and organisational climate. According to Marisa Salanova, director of the research team, “this ranking helps increase the visibility of the scientific impact of the research carried out at the UJI in psychology and psychosocial health”.

Cristina Botella, founder of the Psychology and Technology Laboratory (LabPsiTec) and emeritus professor, considered the first Spanish researcher in applied psychology, together with the current laboratory director, Professor of Psychopathology Azucena García Palacios, rank second and fourth among UJI researchers. LabPsiTec investigates the possibilities that new information and communication technologies offer for clinical psychology practice.

For more than twenty-five years, the laboratory has tested tools such as virtual and augmented reality and mobile systems for clinical assessment and treatment. Professor Cristina Botella pioneered this line of work focused on different areas related to health, quality of life and personal and social wellbeing. Professor García Palacios has focused on developing intervention programmes and leading research lines devoted to personality disorders and chronic pain.

Finally, researcher María Ibáñez Martínez, from the Area of Analytical Chemistry, ranks fifth among UJI researchers. She is a member of the Public Health and Environmental Analytical Chemistry research group and the University Institute of Pesticides and Water Resources (IUPA). Her research focuses on the use of modern hybrid chromatography/mass spectrometry techniques (LC-MS), mainly high-resolution mass spectrometry (HRMS), for the control, identification, confirmation and quantification of contaminants and other organic compounds in environmental, food and biological samples. She also leads numerous GLP studies at the IUPA Pesticide Residue Analysis Laboratory.

The ranking, compiled by Isidro F. Aguillo at the Cybermetrics Lab of the Institute of Public Goods and Policies of the Spanish National Research Council (IPP-CSIC), aims to increase the visibility of women researchers through open-access platforms such as Google Scholar, ORCID and OpenAlex, which provide broader coverage than other bibliometric sources, including subscription-based databases. It also seeks to promote open infrastructures through the wider use of personal ORCID identifiers and institutional ROR identifiers.

The 2026 edition of the ranking includes a total of 12,110 researchers ranked according to the global impact of their research, 122 of whom belong to the public university of Castelló. The full ranking can be consulted in the author’s publication.

Publication

Aguillo, Isidro F. (2026). Ranking de mujeres investigadoras españolas y en España. Edición GS-ORCID OPENALEX Abril 2026. figshare. Preprint. https://doi.org/10.6084/m9.figshare.32063853.v5



 

Commonwealth Fusion Systems builds on learnings from SPARC to publish five peer-reviewed papers validating the physics of the ARC fusion power plant





Cambridge University Press
ARC™ power plant design from Commonwealth Fusion Systems® (CFS) 

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ARC™ power plant design from Commonwealth Fusion Systems® (CFS)

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Credit: Image courtesy of Commonwealth Fusion Systems


  • The set of five peer-reviewed papers, authored by a global team of scientists in a special issue of Journal of Plasma Physics, published by Cambridge University Press, offer a scientifically rigorous examination of CFS’ commercial tokamak power plant using state-of-the-art tools and lessons learned from the design and construction of CFS’ SPARC fusion demonstration machine.
  • The analysis provides confidence that the ARC power plant will be able to continuously deliver 400 megawatts (MW) of net electricity to the grid, highlighting areas of physics that are well proven and areas where additional data from SPARC will reduce uncertainty.
  • The ARC Physics Basis papers follow the success of the original seven papers that CFS published on SPARC in 2020 and significantly improve upon the original ARC papers that predate CFS.

Commonwealth Fusion Systems (CFS), the global leader in fusion energy, today announced the publishing of five peer-reviewed physics basis papers on the company’s ARC fusion power plant in a special edition of Journal of Plasma Physics, published by Cambridge University Press. The papers, written collaboratively by a team of world-class physicists, offer an in-depth examination of the scientific foundations of the ARC power plant and confirm the key physics that’ll enable ARC to continuously deliver 400 megawatts (MW) of net electricity to the grid.

“In publishing these papers, CFS and our partners have shown that if we build the ARC tokamak and power plant as we intend, it’ll work,” said Alex Creely, Chief Engineer for ARC Conceptual Design at CFS and author of the guest editorial in the journal’s special Issue. “We have demonstrated that the design of the ARC fusion power plant has a solid foundation in proven physics; we point out where we will still learn from SPARC; and we show how there is a robust path to deliver 400 MW of clean, firm, baseload power to the grid.”

The papers were co-authored by 58 scientists, the majority from universities, including the Massachusetts Institute of Technology (MIT), Columbia University, University of California San Diego, KTH Royal Institute of Technology, Chalmers University of Technology as well as the global research institute, the Max Planck Institute for Plasma Physics (IPP).

The following topics are covered in the most recent papers:

  1. Overview of the physics basis for the ARC fusion power plant
  2. Power and particle exhaust for the ARC fusion power plant
  3. ARC disruption physics and strategy
  4. Performance and transport in the ARC tokamak
  5. ARC physics basis — magnetohydrodynamics

 

The overview describes the overall attributes of the tokamak and summarizes the other four papers’ key takeaways in areas like fusion power production and plasma stability. The accompanying papers look into specific physics topics of the ARC plant with details on the behavior of the plasma itself, including the strategy for handling plasma disruptions and how fusion heat will be exhausted through the plasma.

The ARC physics basis papers build on the original seven papers that CFS published on SPARC in 2020. The overview paper describing SPARC from that set is still Journal of Plasma Physics’ most-read research paper.

The team used advanced computational tools to combine decades of empirical research conducted on tokamaks worldwide in a physics simulation framework with engineering and commercial priorities. From these simulations, the team determined that the ARC plant will be able to produce about 1.1 gigawatts (GW) of fusion power that will then be converted into 400 MW of continuous net electricity.

“The papers validate and de-risk the approach to commercial fusion we’ve taken, and increase our confidence that there is a scientifically robust path to putting electricity on the grid in the early 2030s,” said Bob Mumgaard, CEO and Co-founder of Commonwealth Fusion Systems. “Peer-reviewed research sets the standard for where and how to invest valuable resources in fusion. The ARC physics basis papers represent a step forward in the depth and breadth of tokamak power plant analysis. They take the challenges seriously, identify where the risks are, and show us how to use SPARC to finalize the ARC plant’s design.”

The work was supported by a growing set of public-private partnerships and programs, including the U.S. Department of Energy’s Milestone-Based Fusion Development Program. Publishing these peer-reviewed papers demonstrates how the ARC power plant agrees with known physics and how CFS and its partners have developed the tools to further refine its design.

“We're excited to start running SPARC so we can put the finishing touches on the ARC design, taking advantage of SPARC’s operational similarity to the power plant,” said Brandon Sorbom, Co-founder and Chief Science Officer of CFS.