Scientists Develop AI Tool for Designing Novel Materials
An international team of scientists, including researchers from HSE University, has developed a new generative model called the Wyckoff Transformer (WyFormer) for creating symmetrical crystal structures. The neural network will make it possible to design materials with specified properties for use in semiconductors, solar panels, medical devices, and other high-tech applications. The scientists will present their work at ICML, a leading international conference on machine learning, on July 15 in Vancouver. A preprint of the paper is available on arxiv.org, with the code and data released under an open-source license.
New materials form the foundation of modern technologies, from electronics to medicine. Thanks to AI, the development timeline for novel materials has been reduced from decades to just a few months. However, scientists must not only rapidly generate new compounds but also accurately predict their properties—such as whether the material will conduct electricity or be durable.
The properties of a material are primarily determined by the internal symmetry of the crystals that compose nearly all solid substances. However, many modern generative models do not explicitly account for symmetry.
Researchers from HSE University, the National University of Singapore, Nanyang Technological University, and Constructor University have developed the Wyckoff Transformer (WyFormer), a novel machine-learning algorithm that rapidly generates materials with specified symmetries and predicts their stability and performance.
The model is based on representing a crystal using Wyckoff positions—mathematically precise coordinates that specify where atoms can be located based on crystal lattice symmetry. This approach enables a concise and universal representation of the structure
'Imagine your reflection in a mirror. While our face is symmetrical, some features come in pairs belonging to two distinct classes, such as the right and left eyes. Other features belong to a single class, like the tip of the nose. In mathematical terms, the nose corresponds to Wyckoff position A, while the eye corresponds to Wyckoff position B. In other words, Wyckoff positions are the key points that define symmetry and enable us to recognise a human face in the mirror,' explains Ignat Romanov, co-author of the paper and Junior Research Fellow at the Faculty of Computer Science, HSE University.
The new model was trained on an open database of real materials from the Materials Project. The AI leverages a transformer architecture to generate novel crystal synthesis recipes that automatically conform to symmetry rules.
'There are countless ways atoms can combine. Trying to find useful combinations and design new materials without understanding their symmetry rules is like sticking LEGO blocks together without a plan. While such improvisation may occasionally produce interesting results, it often leads to unstable structures,' says Nikita Kazeev, co-author of the paper, Research Fellow at the Institute for Functional Intelligent Materials (I-FIM), National University of Singapore, and graduate of the HSE Faculty of Computer Science. 'Our AI tool has effectively learned from all good LEGO instructions—it knows how to generate models that are stable, aesthetically pleasing, and functional. Returning from the metaphor to materials, it understands the full range of symmetry options and can predict a material's properties even without knowing the exact atomic positions within the unit cell.'
Compared to other models, WyFormer produces a higher proportion of stable and unique structures, generates crystals with more accurate symmetry, and achieves a generation rate an order of magnitude faster.
The researchers plan to apply the model to develop practical materials for solid electrolytes and materials with specified thermal conductivity.
Ignat Romanov
See also:
Immersion in Second Language Environment Influences Bilinguals’ Perception of Emotions
Researchers at the Cognitive Health and Intelligence Centre at the HSE Institute for Cognitive Neuroscience have discovered how bilingual individuals process emotional words in their native (first) and non-native (second) languages. It was found that the link between word meaning and bodily sensations is weaker in a second language than in a first language. However, the more a person is immersed in a language environment, the smaller this difference becomes. The article has been published in Language, Cognition and Neuroscience.
HSE Students Among Winners of Yandex High-Tech Startup Accelerator
Yandex has announced the results of its Yandex AI Startup Lab accelerator, whose final round featured 12 IT projects. Over the course of three months, their creators—students and young entrepreneurs—worked alongside the company’s experts to develop their products. Four startups in digital marketing, medicine, and robotics were named the best, with their teams receiving cash prizes and cloud resource grants. Among them was Gradius, a startup founded by students from HSE University.
Researchers Find More Effective Approach to Revealing Majorana Zero Modes in Superconductors
An international team of researchers, including physicists from HSE MIEM, has demonstrated that nonmagnetic impurities can help more accurately reveal Majorana zero modes—quantum states considered promising building blocks for quantum computing. The researchers found that these impurities shift the energy levels that typically obscure the Majorana signal, while leaving the mode itself largely unaffected, thereby making its spectral peak more distinct. The study has been published in Research.
New Development by HSE Scientists Helps Design Reliable Electronics Faster at a Lower Cost
Scientists from HSE MIEM have developed a new approach to modelling electrothermal processes in high-power electronic circuits on printed circuit boards (PCB). The method allows engineers to quickly and accurately predict how electronic components heat up during operation, helping prevent overheating and potential failures. The results have been published in Russian Microelectronics.
The Future of Cardiogenetics Lies in Artificial Intelligence
Researchers from the AI and Digital Science Institute at the HSE Faculty of Computer Science have developed a program capable of analysing regions of the human genome that were previously inaccessible for accurate interpretation in genetic testing. The program adapts large generative AI (GenAI) models for cardiogenetics to predict how specific mutations affect the function of individual genes.
HSE and Peking University Discuss Prospects for Expanding Cooperation
In Moscow, HSE University’s leadership met with a delegation from Peking University headed by its President, Gong Qihuang. During the meeting, the parties agreed to strengthen partnership between the two universities within the framework of the Cross Years of Russian–Chinese Cooperation in Education (2026–2027).
HSE Researchers: Young Russians Have Sufficient Knowledge About Money but Lack Money Management Skills
Adolescents and young adults in Russia today are well versed in financial terminology: they know what bank cards, loans, interest rates, and online payments are. However, as researchers at HSE University have found, real money-management skills remain poorly developed among most young people. The study ‘Financial Literacy, Financial Culture, and Financial Autonomy of Youth’ has been published in Monitoring of Public Opinion: Economic and Social Changes.
Why Weaker Competitors Give Up—and How to Keep Them in the Game
Anastasia Antsygina, Assistant Professor at HSE University’s Faculty of Economic Sciences, has developed a prize distribution model that maximises competitor engagement. She proposed revising the traditional ‘winner-takes-all’ approach and, in certain cases, offering a small reward even to those who have lost. According to her, this could increase participant motivation and make the competition more intense. The findings of her research were published in the Economic Theory journal.
HSE Researchers Compile Scientific Database for Studying Children’s Eating Habits
The database created at HSE University can serve as a foundation for studying children’s eating habits. This is outlined in the study ‘The Influence of Age, Gender, and Social-Role Factors on Children’s Compliance with Age-Based Nutritional Norms: An Experimental Study Using the Dish-I-Wish Web Application.’ The work has been carried out as part of the HSE Basic Research Programme and was presented at the XXVI April International Academic Conference named after Evgeny Yasin.
New Foresight Centre Study Identifies the Most Destructive Global Trends for Humankind
A team of researchers from the HSE International Research and Educational Foresight Centre has examined how global trends affect the quality of human life—from life expectancy to professional fulfilment. The findings of the study titled ‘Human Capital Transformation under the Influence of Global Trends’ were published in Foresight.