Core Insights - The research from Tsinghua University reveals a paradox in the AI for Science field, where AI accelerates individual scientific productivity but narrows collective scientific focus, leading to a phenomenon known as "group climbing" [3][4][31]. Group 1: Research Findings - The study analyzed 250 million scientific papers and found that while AI tools have enabled scientists to publish 3.02 times more papers and receive 4.84 times more citations, the overall breadth of scientific exploration has decreased by 4.63% [3][26][29]. - The research indicates that the collective interaction among scientists from different fields has reduced by 22%, suggesting a trend towards concentration and a lack of innovative vitality in research [29]. Group 2: Methodology - The research team utilized a combination of expert annotation and large-scale language model inference to identify AI-augmented research, achieving a high accuracy score of 0.875 [12][13]. - A comprehensive dataset covering 41.3 million research papers from 1980 to 2025 was created, serving as a benchmark for understanding the systematic impact of AI on scientific research [14]. Group 3: Implications - The findings suggest that the current AI models lack generalizability, leading to a strong "scientific intelligence gravity" effect that draws researchers towards a few popular research areas, thereby solidifying existing scientific exploration paths [31][32]. - The research concludes that while AI enhances local efficiency, it struggles to drive innovation across the entire research chain and multiple disciplines [35].

Core Viewpoint - The forum on high-quality implementation of the New Era Moral Education Project was held at Renmin University of China, emphasizing the importance of ideological and political education in universities and the collaboration between Beijing and Shanghai institutions [1] Group 1: Event Overview - The Beijing-Shanghai Higher Education Student Work Directors Forum and the seminar on the New Era Moral Education Project were recently held [1] - Leaders at the event awarded flags to the 2026 winter vacation Beijing-Shanghai university pioneer social practice team and launched the "Guardians of Chinese Culture" oral history collection initiative [1] Group 2: Policy and Implementation - The Beijing Municipal Education Commission highlighted the goal of enhancing ideological and political education, aiming to create a robust ideological leadership framework [1] - The initiative focuses on building a collaborative moral education system, expanding practical education classrooms, and enhancing online educational resources [1] Group 3: Collaborative Efforts - The "Guardians of Chinese Culture" initiative will involve university students and faculty engaging with grassroots cultural activities, compiling and publishing outstanding cultural achievements, and participating in international dialogues [1] - Eight universities from Beijing and Shanghai, including Peking University and Tsinghua University, shared their practices and experiences in various areas of moral education and student development [1]

2026年1月10日下午，中国人民大学评价研究中心在文化大厦召开"2025 年中国高等教育、职业教育标 识性概念及'综改'媒体声誉指数发布研讨会"，联合全国高校信息资料研究会、中国教育发展战略学会 高等教育专业委员会重磅发布了"2025年中国头部高校与职业院校'综改'媒体声誉指数"，并结合新闻报 道分享案例，推出了2025年中国头部高校综合改革媒体声誉的国际引领型十佳高校、国际引领型提名高 校、地方卓越型十佳高校、地方卓越型提名高校、行业特色型十佳高校、行业特色型提名高校，以及 2025年中国职业院校和职业本科的综合改革十佳学校与提名学校。 评价研究中心以媒体报道为切入点，以29家主流媒体及社会化媒体平台（如微博、微信和抖音平台）为 数据来源，获取高校与职业院校综合改革动态相关的新闻，抓取339所头部高校（147所"双一流"建设高 校和192所地方重点建设高校）、293所高职院校及52所职业本科的有效相关媒体报道共40余万条，经数 据去重与清洗，进行打标签与分类，最终依据权重计算得出中国头部高校与职业院校"综改"媒体声誉指 数。本指数重点关注头部高校与职业院校的综合改革创新举措，涵盖人才培养创新、科研与技术创 ...

【导读】清华大学团队研发出一种基于光场空间角度冗余性的自监督去噪算法LF-denoising，可在自然光级（10μW/mm²）的超低光毒性下实现长时间高 保真三维亚细胞成像。该技术突破了长时间活体成像的光毒性限制，为脑科学、免疫学等领域研究提供全新工具，助力揭示生命过程的真实动态。 细胞是组成生命的基本单元，而其大量功能以及细胞间的体内交互作用往往持续数十小时，难以在体外环境复现。 然而，在荧光显微中，只要有激发光照射，就不可避免引发光毒性——光照能量会损伤细胞与组织，使荧光信号逐渐衰减、细胞功能紊乱甚至死亡。 光毒性并非瞬时问题，而是贯穿整个成像过程的「逐帧累积性伤害」；在长时间成像中，这种伤害会不可逆地改变生命过程本身，使所观测到的结果不再 是真实的生理状态。 为应对光毒性挑战，清华大学戴琼海院士团队先后突破成像「节流」极限：扫描光场显微技术[1]在单次曝光完成三维重建，大幅减少光剂量；随后结合 基于物理深度学习的虚拟扫描技术[2]，大幅降低扫描过程中引入的光毒性。光子利用效率已被推至极高水平——激发光强已接近现有活体荧光成像的下 限。 但真正的挑战来自长达数小时甚至昼夜尺度的生物现象：此时，激发光必须进 ...

中新网1月12日电(吴家驹)近日，清华大学采购信息发布平台发布《清华大学紫荆学生公寓1-6、8-13号 楼综合维修改造项目(方案设计、初步设计、施工图设计)招标公告》。 公告显示，该项目投资额为67834.47万元，建设资金来自学校自筹资金，项目出资比例为100%。项目 已具备招标条件，现进行公开招标。 大学采购信息发布平台 图自清华 清华大学官网显示，清华大学紫荆学生公寓区位于校园北部，总占地28.4公顷，总建筑面积37万平方 米，是目前国内规模最大的现代化学生公寓。公寓区的主体建筑为徽派建筑，分为本科生区、研究生 区、留学生区和继续教育学员区，其中博士生公寓楼因排列为英文字母"W"形，而被学生称为W楼。 (完) ...

导读： 2025年 第12期高校仪器采购意向汇总来了。全国各大高校发布仪器采购意向，预算总额 达亿以上 。 特别提示 微信公众号机制调整，请点击顶部"仪器信息网" → 右上方"…" → 设为 ★ 星标，否则很可能无法看到我们的推送。 2025年12月，高校科研院所的仪器设备采购热度不减，小编汇总了12月发布的36 所高校及科研院所部分大宗仪器采 购意向，预算总额 达48亿 以上： 2025年12月高校科研院所仪器设备采购意向汇总清单 | 采购院校 | 金额 | | --- | --- | | | 亿元 | | 华中科技大学 | 0.64 | | 广东工业大学 | 0.85 | | 中国科学院合肥物质院 | 3.33 | | 安徽大学 | 0.88 | | 北京大学 | 1.13 | | 北京航空航天大学 | 0.74 | | 四川大学 | 0.88 | | 青海民族大学 | 1.39 | | 复旦大学 | 1.21 | | 佛山大学 | 1.15 | | 大连理工大学 | 1.16 | | 中国科学院合肥物质院 | 1.14 | | 齐鲁工业大学 | 1.68 | | 广西医科大学 | 1.11 | （ 点 ...

Group 1 - The project "Key Technologies and Applications for Rheological and Hydration Control of Concrete Based on Chemical Admixtures" won the second prize of the 2025 Hebei Provincial Science and Technology Progress Award, highlighting its significance in the construction materials industry [1] - The project addresses engineering challenges such as long-distance pumping difficulties, high viscosity of ultra-high-performance concrete, temperature rise cracking in large volume concrete, slow strength development in low-temperature construction, high energy consumption in precast component curing, and significant rebound loss in tunnel shotcrete [1] - A series of new types of admixture products were successfully developed, including viscosity-reducing polycarboxylate superplasticizers and early-strength agents, achieving international leading technical levels [1] Group 2 - The project has established multiple production lines for functional concrete admixtures, with a cumulative output reaching several hundred thousand tons, and the products are widely used in major engineering projects such as the Sichuan-Tibet Railway and Yangfanggou Hydropower Station [1] - The implementation of these products in engineering applications has led to significant reductions in cement clinker usage by 800,000 tons and indirect carbon reduction of 650,000 tons [1] - The team led by Professor Kong Xiangming is committed to innovation in building materials, achieving important results in promoting green transformation and sustainable development in the industry [2] Group 3 - The team has developed an inorganic formaldehyde-free board that has achieved large-scale production, with zero formaldehyde release and significantly lower volatile organic compounds (VOCs) than national standards, along with excellent performance characteristics [2] - The LC3 low-carbon cement material developed from engineering waste can reduce carbon dioxide emissions by approximately 30%-40% and lower production costs by about 25%, showcasing significant environmental and economic advantages [3] - The team has also made breakthroughs in special functional materials, such as hydrophobic concrete technology and self-healing concrete, which enhance durability and repair capabilities [3][4] Group 4 - The team has developed an AI-based concrete performance enhancement device and constructed a fully waste-based cementing system using industrial solid waste, promoting circular development and industry upgrading in the building materials sector [4] - The establishment of the "High-Performance Concrete Special Functional Materials Engineering Research Center" and the "Advanced Building Materials Pilot Curing Platform and Concept Verification Platform" aims to facilitate the transition from laboratory research to industrial application [4] - These initiatives will inject continuous innovative momentum into the green and high-performance development of building materials [4]

Core Viewpoint - Tsinghua University has officially launched a large-scale renovation project for its Zijing Student Dormitory, with a total investment of 678 million yuan, marking one of the largest investments in upgrading student accommodation conditions in recent years [1][2]. Group 1: Project Overview - The renovation project involves 12 dormitory buildings (Buildings 1-6 and 8-13) within the Zijing Student Dormitory area, covering a total construction area of 135,668.94 square meters, with buildings reaching up to 8 stories above ground and no basement [2][8]. - The project has been approved by the Tsinghua University Infrastructure Planning Committee, indicating that it has completed internal decision-making processes and is entering the substantive design bidding phase [2][8]. Group 2: Rationale and Importance - The selected buildings for renovation are part of the early construction phase of the Zijing Dormitory, with internal facilities and systems nearing their design lifespan, highlighting the necessity for systematic upgrades in response to evolving student living standards and updated building energy efficiency and accessibility standards [4][10]. - Improving student accommodation has become a key focus in campus development for major universities in China, as emphasized in the Ministry of Education's guidelines for enhancing educational quality and campus environments [4][10]. Group 3: Funding and Financial Aspects - The entire funding for the project is sourced from Tsinghua University's own budget, reflecting the university's commitment to improving student living conditions and its financial management capabilities [5][10]. - The investment of 678 million yuan demonstrates the university's prioritization of enhancing the accommodation environment for students, with funding derived from various sources including tuition, research service income, and donations [5][10]. Group 4: Project Execution and Design Principles - The project will adhere to national construction bidding management regulations and Tsinghua University's procurement guidelines, ensuring a structured approach to design and construction [11]. - The renovation is expected to follow principles of safety, suitability, economy, and sustainability, integrating modern design concepts such as smart campus features, energy efficiency, and accessibility [11].

Core Insights - Tsinghua University has developed an AI-driven ultra-high-throughput drug virtual screening platform called DrugCLIP, which significantly enhances the speed of new drug screening by a factor of one million, achieving full coverage of human genome targets [1][2]. Group 1: Drug Screening Technology - DrugCLIP allows for the rapid matching of small molecules to disease targets, overcoming traditional screening limitations by converting proteins and small molecules into computer-readable signals [1]. - The platform can perform 31 trillion matching calculations in a single day on a standard high-performance computer, completing the screening of 1 million candidate molecules in just 0.02 seconds [1]. Group 2: Research Achievements - Utilizing DrugCLIP, the research team has achieved full coverage screening of approximately 10,000 targets and 20,000 key sites within the human genome, analyzing over 500 million candidate small molecules and identifying more than 2 million potential effective compounds [2]. - The team has established the world's largest drug target matching database, which is available for free to global researchers [2].

央视网消息：寒假临近，一些打着高校名义的"教授内推"、"'寒假学堂'营"、"招生咨询"等信息层出不 穷，这些信息靠谱吗？真的是各高校发布的吗？近日，北京大学、清华大学、西南交通大学、香港大学 等多所高校接连发布声明，对冒用校名、虚假招生信息及违规活动进行辟谣。 ...