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Augmenting Large Language Models via Vector Embeddings to Improve Domain-Specific Responsiveness
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Human-Machine Collaborative Design of SnTe-Based Thermoelectric Materials via a Multiagent Framework Leveraging Large

Haojian Su1, Shuai Lei2, Yazhou Chen1

  • 1Institute of System Engineering, Academy of Military Science, Beijing 100141, China.

ACS Applied Materials & Interfaces
|November 10, 2025
PubMed
Summary
This summary is machine-generated.

This study introduces a large language model (LLM) framework for designing advanced thermoelectric materials. LLM guidance significantly boosted material performance, achieving a 40% increase in thermoelectric figure of merit (zT).

Keywords:
SnTeartificial intelligencelarge language modelsmaterial designmultiagentthermoelectric materials

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Area of Science:

  • Materials Science
  • Artificial Intelligence
  • Energy Science

Background:

  • Traditional thermoelectric material design relies heavily on empirical methods and computational simulations.
  • Developing high-performance thermoelectric materials for energy applications is challenging.
  • Existing approaches often lack efficiency in extracting knowledge from vast scientific literature.

Purpose of the Study:

  • To develop an innovative framework for human-machine collaborative design of SnTe-based thermoelectric materials.
  • To leverage large language models (LLMs) for efficient knowledge extraction and optimization strategy deduction.
  • To demonstrate the efficacy of LLM-guided design in enhancing thermoelectric material performance.

Main Methods:

  • Implementation of a multiagent collaborative framework driven by LLMs.
  • Integration of strategy planning and reasoning modules for knowledge extraction from literature and experimental data.
  • Guided experimental synthesis and characterization of SnTe-based materials with Sb, Ge, and Cu incorporation.

Main Results:

  • The LLM framework successfully deduced optimization strategies and compositional ranges.
  • Incorporation of Sb, Ge, and Cu elements modulated carrier concentration and induced multiscale defects.
  • A novel sample achieved a thermoelectric figure of merit (zT) of ~1.2, a 40% increase over Sb-doped SnTe.

Conclusions:

  • LLM-driven collaborative design offers a novel paradigm for material discovery, surpassing traditional methods.
  • The developed framework significantly enhances thermoelectric material performance.
  • This approach has broad implications for high-performance material design in energy fields, including waste heat recovery and solid-state cooling.