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    <id>64019</id>
    <completedYear/>
    <publishedYear>2025</publishedYear>
    <thesisYearAccepted/>
    <language>eng</language>
    <pageFirst>1</pageFirst>
    <pageLast>34</pageLast>
    <pageNumber/>
    <edition/>
    <issue>3</issue>
    <volume>6</volume>
    <type>article</type>
    <publisherName>IOP Publishing</publisherName>
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    <title language="eng">32 examples of LLM applications in materials science and chemistry: towards automation, assistants, agents, and accelerated scientific discovery</title>
    <abstract language="eng">Large Language Models (LLMs) are reshaping many aspects of materials science and chemistry research, enabling advances in molecular property prediction, materials design, scientific automation, knowledge extraction, and more. Recent developments demonstrate that the latest class of models are able to integrate structured and unstructured data, assist in hypothesis generation, and streamline research workflows. To explore the frontier of LLM capabilities across the research lifecycle, we review applications of LLMs through 34 total projects developed during the second annual Large Language Model Hackathon for Applications in Materials Science and Chemistry, a global hybrid event. These projects spanned seven key research areas: (1) molecular and material property prediction, (2) molecular and material design, (3) automation and novel interfaces, (4) scientific communication and education, (5) research data management and automation, (6) hypothesis generation and evaluation, and (7) knowledge extraction and reasoning from the scientific literature. Collectively, these applications illustrate how LLMs serve as versatile predictive models, platforms for rapid prototyping of domain-specific tools, and much more. In particular, improvements in both open source and proprietary LLM performance through the addition of reasoning, additional training data, and new techniques have expanded effectiveness, particularly in low-data environments and interdisciplinary research. As LLMs continue to improve, their integration into scientific workflows presents both new opportunities and new challenges, requiring ongoing exploration, continued refinement, and further research to address reliability, interpretability, and reproducibility.</abstract>
    <parentTitle language="eng">Machine Learning: Science and Technology</parentTitle>
    <identifier type="issn">2632-2153</identifier>
    <identifier type="doi">10.1088/2632-2153/ae011a</identifier>
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    <enrichment key="date_peer_review">13.10.2025</enrichment>
    <author>Yoel Zimmermann</author>
    <author>Adib Bazgir</author>
    <author>Alexander Al-Feghali</author>
    <author>Mehrad Ansari</author>
    <author>Joshua Bocarsly</author>
    <author>L Catherine Brinson</author>
    <author>Yuan Chiang</author>
    <author>Defne Circi</author>
    <author>Min-Hsueh Chiu</author>
    <author>Nathan Daelman</author>
    <author>Matthew Evans</author>
    <author>Abhijeet S Gangan</author>
    <author>Janine George</author>
    <author>Hassan Harb</author>
    <author>Ghazal Khalighinejad</author>
    <author>Sartaaj Takrim Khan</author>
    <author>Sascha Klawohn</author>
    <author>Magdalena Lederbauer</author>
    <author>Soroush Mahjoubi</author>
    <author>Bernadette Mohr</author>
    <author>Seyed Mohamad Moosavi</author>
    <author>Aakash Ashok Naik</author>
    <author>Aleyna Beste Ozhan</author>
    <author>Dieter Plessers</author>
    <author>Aritra Roy</author>
    <author>Fabian Schoeppach</author>
    <author>Philippe Schwaller</author>
    <author>Carla Terboven</author>
    <author>Katharina Ueltzen</author>
    <author>Yue Wu</author>
    <author>Shang Zhu</author>
    <author>Jan Janssen</author>
    <author>Calvin Li</author>
    <author>Ian Foster</author>
    <author>Ben Blaiszik</author>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Large Language Models</value>
    </subject>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Machine Learning</value>
    </subject>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Materials Design</value>
    </subject>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Bonding Analysis</value>
    </subject>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Phonons</value>
    </subject>
    <subject>
      <language>eng</language>
      <type>uncontrolled</type>
      <value>Thermal properties</value>
    </subject>
    <collection role="ddc" number="620">Ingenieurwissenschaften und zugeordnete Tätigkeiten</collection>
    <collection role="institutes" number="">6 Materialchemie</collection>
    <collection role="institutes" number="">6.6 Digitale Materialchemie</collection>
    <collection role="themenfelder" number="">Material</collection>
    <collection role="literaturgattung" number="">Verlagsliteratur</collection>
    <collection role="fulltextaccess" number="">Datei im Netzwerk der BAM verfügbar ("Closed Access")</collection>
    <collection role="themenfelder" number="">Materialdesign</collection>
  </doc>
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