Google DeepMind 将开设其首个用于发现新材料的研究实验室，例如用于电池或半导体的材料，这是其将人工智能应用于更多科学领域的推进举措之一。 图片来源： Google DeepMind 该设施将于明年在英国开放，是 Alphabet 旗下 Google 周四宣布的与英国政府广泛合作的核心内容。 根据协议，该公司表示将为英国的科学家、教师和公 职人员定制其多个 AI 模型，包括 Gemini 。 DeepMind—— 该公司位于伦敦的研究部门 —— 将这个实验室描述为其首个 " 自动化 " 设施，这是一个使用机器人技术进行科学实验、最小化人工干预的 场所。该公司没有提供任何财务细节或透露将有多少人在那里工作。 英国合作对于 Google 努力让政府采用其云服务和 Gemini AI 模型来说是一次胜利，在这一领域它与竞争对手微软和 OpenAI 展开竞争。 这也是 DeepMind 计划进一步推进材料科学的标志，材料科学是其主要研究兴趣之一。 包括一些前 DeepMind 工程师创立的几家新初创公司正试图使用先进的 AI 算法来发现新材料，认为这一过程可以大幅降低成本和时间。 DeepMind 表示， ...

Core Insights - TRUNNANO has achieved a significant breakthrough in producing high-purity spherical aluminum nitride (AlN) powder, addressing long-standing technical challenges in the industry [1][2][3] - The new synthesis method developed by TRUNNANO enhances sphericity, uniform particle size distribution, and thermal conductivity, making it suitable for advanced electronic and ceramic applications [1][5][6] Company Overview - TRUNNANO is a high-tech enterprise based in Luoyang, China, specializing in the research, development, and production of nanomaterials and specialty chemicals [8] - The company boasts a strong R&D team composed of multiple PhDs and senior engineers, emphasizing its commitment to high-quality chemical solutions [8] Product Features - The spherical AlN powder exhibits superior thermal conductivity, making it ideal for applications in semiconductor packaging, high-power LED cooling, and advanced ceramics [2][6] - The product specifications include an average particle size ranging from 1.0-1.2 micrometers to 110-130 micrometers, with a true density greater than 3.30 g/cm³ and thermal conductivity exceeding 170 W/m·K [7] Industry Impact - The innovation in spherical AlN powder is expected to transform industries by enabling next-generation thermal interface materials (TIMs) for 5G devices and electric vehicles, where efficient heat dissipation is crucial [6] - By overcoming challenges related to sphericity and purity, TRUNNANO's advancements support the miniaturization and thermal management of electronic devices [6]

Core Points - Nora Radu, Ph.D., is the first industrial scientist to receive the 2025 American Chemical Society (ACS) Award for Distinguished Service in the Advancement of Inorganic Chemistry, marking a significant milestone in the award's 60-year history [1][6] - Radu's contributions at DuPont span over 25 years, focusing on advancements in inorganic chemistry and material science, including the development of catalysts for nylon 66 and dielectric materials for the electronics industry [2][3] - Radu has been granted over 60 patents and has authored 20 internal reports and 17 scientific papers, showcasing her extensive research output and innovation [3] DuPont Contributions - Radu played a crucial role in advancing DuPont's nylon products and has led the development of novel polyimide films, which have enabled durable, flexible displays for electronic devices [2][3] - Her recent work supports the electronics industry by developing OLED materials that enhance display performance and longevity [3] - DuPont expresses pride in Radu's contributions and anticipates her ongoing impact on flexible display technologies and other sectors [4] Involvement in the Scientific Community - Radu has significantly contributed to the ACS Division of Inorganic Chemistry, serving as Program Co-Chair and later as Chair, where she promoted industry participation and established awards for early career industrial investigators [5] - She initiated the GRC Graduate Research Seminar to foster connections among emerging researchers, promoting inclusivity in the scientific community [4][5] - Radu's leadership and achievements are recognized as a testament to the potential impact of industrial scientists in advancing scientific knowledge [6]