Core Viewpoint - The government of Yantai has emphasized the importance of strengthening technological leadership and accelerating the construction of a high-level innovative city, alongside deepening the integration of education and industry, and enhancing cooperation between Yantai University and top institutions like Peking University and Tsinghua University [1][3]. Group 1: Achievements and Current Status - Yantai University has seen significant technology transfer success, with over 90 million yuan in technology transaction revenue expected in 2024 [3]. - The university has dispatched 109 technology specialists to various enterprises, with 22.4% of students choosing to stay in Yantai for employment or further studies [3]. - Notable achievements include a domestic market share of over 95% for the university's "carbon four separation technology" and participation in the launch of the "Tiansuan Constellation" satellite [3]. Group 2: Challenges and Bottlenecks - There is a mismatch between educational supply and industrial demand, particularly in emerging fields like green chemicals and renewable energy, which require interdisciplinary talent [4]. - The integration of technological innovation and industrial upgrading is insufficient, with existing research platforms not fully utilized [5]. - The talent mobility and resource-sharing mechanisms are not well-established, leading to challenges in attracting high-end talent [5]. - The collaboration between academia and local government lacks a robust policy framework and communication channels [5][6]. Group 3: Recommendations for Improvement - A proposed annual forum, "Peking University, Tsinghua University, and Yantai Cooperation Development Forum," aims to enhance collaboration and address local development needs [7]. - The establishment of specialized industry colleges in collaboration with Peking University and Tsinghua University is suggested to align educational programs with local industrial demands [7]. - The creation of a high-end innovation platform to tackle key technological challenges and the establishment of a four-party collaboration system for technology transfer are recommended [8]. - A talent-sharing initiative is proposed to attract top talent in green technology and marine science, along with a mutual hiring mechanism for faculty [8]. Group 4: Vision for the Future - Yantai University aims to deepen its collaboration with Peking University and Tsinghua University to contribute to the city's development as a model for green, low-carbon, and high-quality growth [9]. - The ongoing partnership, which began 40 years ago, is expected to enhance Yantai's intellectual advantages in regional competition [9].

1 为吸引优秀青年学者来清华大学开展研究工作，支持其学术生涯发展，培育各领域拔尖人才，学校特设 立清华大学"水木学者"计划。该计划旨在服务学校"双一流"建设，贡献于国家社会经济和科技发展。 现启动2026年"水木学者"计划申报与评选工作，招聘领域涵盖清华大学52个博士一级学科。欢迎潜心学 术、勇于创新的青年人才加入"水木学者"！ 一、薪酬与福利待遇 薪酬 校发年薪30万元（税前），资助期限2-3年。院系可根据申请人的综合情况给予额外资助。 2 福利 1. 提供社会保险、职业年金、公积金、住房补贴等。 2. 提供博士后周转公寓或租房补贴4.2万元/年。 3. 依据全国博士后管理委员会办公室、北京市和学校相关规定，办理子女入园入学、升学，提供医疗待 遇。 4. 出站按照国家博士后政策办理本人及家属的户籍迁移。 3 职称评定 在站满三年可申请评定副研究员任职资格。 （深圳国际研究生院"水木学者"的薪酬与福利待遇由深圳国际研究生院参照上述待遇解决，具体请咨询 深圳国际研究生院。） 二、培养与职业发展 学校为"水木学者"提供高起点发展平台和全方位培养体系，由教师发展中心提供职业发展培训，"水木 学者"可参加清华大学新教 ...

Core Insights - Tsinghua University has announced procurement intentions for 18 types of instruments and equipment, with a total budget of 136 million yuan, scheduled for January 2026 [1][2]. Procurement Overview - The procurement includes various advanced technologies such as: - Plasma Enhanced Chemical Vapor Deposition (PECVD) system with a budget of 2.7 million yuan [4] - Inductively Coupled Plasma Enhanced Chemical Vapor Deposition (ICP-CVD) system with a budget of 3 million yuan [4] - High-Density Plasma Chemical Vapor Deposition (HDPCVD) system with a budget of 24 million yuan [4] - Atomic Layer Deposition (ALD) system with a budget of 9 million yuan [4] - Ion Implanter with a budget of 20 million yuan [4] - Other equipment includes vacuum annealing systems, electron beam evaporators, and various testing instruments [5]. Detailed Equipment List - The detailed procurement list includes: - Directional Magnetization Vacuum Annealing System: 4 million yuan [4] - General Electron Beam Evaporator: 4 million yuan [4] - New Material Etching Machine: 5 million yuan [5] - Scanning Electron Microscope: 5 million yuan [5] - Hall Effect Tester: 2.9 million yuan [5] - Critical Dimension Measurement System: 7 million yuan [5] - Electron Beam Lithography System: 30 million yuan [5].

摘要 ： 近日，清华大学发布多批政府采购意向，仪器信息网特对其中的仪器设备品目进行梳理，统计出 52项仪器设备采购意向，预算总额达1.12亿元。 特别提示 微信机制调整，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。 近日， 清华大学发 5 2 项仪器设备采购意向，预算总额达 1 . 1 2 亿 元 ， 涉 及 温 控 油 耗 仪 、氧 化物分子束外延薄膜制备系统、粒径与微量元素分析平台、温室气体分析与测试实验平台 、空 间转录组学成像解析设备 等，预计采购时间为2 0 2 5 年 11月~2 0 2 6年3 月。 详细采购清单： 清华大学 2 0 2 5 年 11月~ 2 0 2 6年3 月 仪器设备采购 意向汇总表 | 采购 | 需求概况 | 预算 | 采购 | | | --- | --- | --- | --- | --- | | 项目 | | 万元 | 时间 | | | 雨量筒 | 雨量筒。 | | 90 | 2026年1月 | | 高质量碳 | | | | | | 纳米管连 | 高质量碳纳米管连续 | | | | | 续式化学 | 式化学气相反应系 | ...

每经编辑｜许绍航 近日，清华大学一则"砸钱"新闻引发关注：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》，拟投资67834.47万元，对紫荆学生公寓12栋楼宇进行全面改造。本次建设资金来自学校自筹资金，项目出资比例为 100%。 图：紫荆公寓区，来源：清华大学官网 值得一提的是，不久前，北京大学基建工程部也曾发布《北京大学45-48号楼学生宿舍改造工程（方案设计、初步设计、施工图设计）招标公告》，对燕 园校区部分老旧公寓进行电路改造、卫浴翻新，并新增自习空间与储物区域，回应学生长期以来的诉求。 | 题:国家发展改革委等部门关于加强高校学生宿舍建设的指导意见 发文机关: 示 | | 国家发展改革委 教育部 财政部 自然资源部 住房城乡建设部 中 | | --- | --- | --- | | | | 国人民银行 金融监管总局 | | 发文字号: 发改社会〔2024〕25号 | 源:国家发展改革委网站 联 | | | 主题分类:国民经济管理、国有资产监管\其他 | 公文种类: 意见 | | | 成文日期: 2024年01月08日 ...

Core Viewpoint - The article highlights the ongoing efforts of a collaborative initiative involving multiple Chinese governmental and educational institutions aimed at promoting the spirit of scientists among youth through various educational and cultural activities [3][4][6]. Group 1: Initiative Overview - The initiative, launched in 2012, focuses on cultivating patriotism, innovation, practicality, dedication, collaboration, and education within the youth [3]. - It has expanded significantly, covering 184 universities and 8 research institutes across 30 provinces and regions in China, with plans for further growth in 2025 [3][4]. Group 2: Activities and Impact - The program includes creative performances and storytelling that transform abstract scientific figures into relatable role models for students, fostering a deeper connection to the scientific spirit [4][6]. - Events such as the "Science Master Drama" and youth lecture teams have engaged over 300,000 students, promoting the ideals of scientists through relatable narratives and interactive experiences [6][7]. Group 3: Future Plans - The initiative aims to further enhance its outreach by introducing new activities like the "Youth Speak on Scientist Spirit" in 2025, involving over a hundred universities [8]. - The program is set to align with significant dates such as National Science Workers Day, aiming to create a lasting impact on youth through continuous engagement and inspiration [7][8].

面对各类招生信息，考生和家长一定要擦亮双眼，认准哪些是官方权威信息，哪些是小道信息。要摒弃 侥幸心理，与其在找捷径上费神，不如沉下心来提升实力，用真实力说话。高校、教育行政、网信、市 场监管等部门也要联手发力，打击虚假招生营销，为考生和家长撑起一片干净的蓝天。（房子芯） 寒假将至，网络上各类招生信息层出不穷。日前，清华大学、北京大学等多所高校接连发声，对冒用校 名、虚假招生信息及违规活动进行辟谣。 原标题：当心披着"名校光环"的招生骗局 "教授内推""寒假学堂"等等，都是假的！这背后，是不法分子用名校光环"拿捏"大众侥幸心理的虚假营 销，甚至是诈骗行为。考生和家长如果轻信这些消息，轻则搭上时间和金钱成本，重则可能耽误升学机 会。于高校而言，这是对高校名誉权、公信力的侵害。同时，这类不实信息的传播，还会扰乱清朗的网 络空间和正常的招生秩序，损害教育公平。 ...

Core Insights - A groundbreaking study published in *Science* identifies a new type of neural stem cell in the human brain that continuously produces inhibitory neurons during the embryonic stage, essential for brain development [1] Group 1 - The research was conducted by a collaboration between Tsinghua University's Mida team and Academician Zhu Lan's team from the Chinese Academy of Medical Sciences, Peking Union Medical College Hospital [1] - The discovery addresses the long-standing mystery of how the human brain generates a reservoir of inhibitory neurons [1]

Core Viewpoint - Harvard University has dropped to third place in the Leiden University Ranking, with Chinese universities rising rapidly, indicating a potential shift in global academic dominance and raising concerns about the future of American higher education [1][2][3]. Group 1: Ranking Changes - Harvard University was once the top research university globally but has now fallen to third place in the Leiden University Ranking, with Zhejiang University now ranked first [1][2]. - The ranking shift reflects a broader trend where Chinese universities are increasingly recognized for their research output, with seven Chinese universities now in the top ten [2][3]. - Despite an increase in research output, Harvard remains the only American university near the top of the ranking, while other U.S. institutions have also seen their rankings decline [3][4]. Group 2: Impact of U.S. Policies - The decline in American university rankings coincides with significant cuts to federal research funding under the Trump administration, which has heavily impacted universities that rely on government support for research [1][4]. - The reduction in funding and the implementation of travel bans and anti-immigration policies have created additional pressures on U.S. universities, potentially harming their global reputation and ability to attract international talent [4][7]. - The number of international students in the U.S. decreased by 19% compared to the previous year, which may further damage the standing of American universities [4][6]. Group 3: Global Competition - The competition in global higher education is intensifying, with other countries, particularly China, making significant investments in research and development, leading to faster progress compared to the U.S. [2][4]. - Experts warn that the U.S. is at risk of falling behind as Chinese universities continue to improve their research output and quality [3][4]. - The trend of declining rankings for U.S. universities is not limited to research output but also reflects broader issues such as financial stability and student interest [8][9]. Group 4: Future Implications - The ongoing decline in rankings may have long-term implications for the ability of U.S. universities to attract top talent, both students and faculty, which is crucial for maintaining their global standing [11][12]. - While some rankings that consider factors beyond research output still show strong performance for U.S. universities, the overall trend indicates a potential erosion of American dominance in higher education [8][9]. - The relationship between university rankings and national strength is complex, but historical examples suggest that a decline in academic quality can have far-reaching consequences [12].

Core Viewpoint - The article discusses a significant advancement in the field of biomanufacturing, focusing on the development of a technology called FLASH (flow-led assembly for spiral hierarchical structure) that enables the scalable fabrication of aligned myocardial tissues with a native-like helical architecture for heart repair [2][5]. Group 1: Research Background - The natural helical arrangement of myocardial fibers is crucial for efficient heart pumping, yet replicating this structure on a large scale remains a major challenge in biomanufacturing [2]. - The research published by Tsinghua University highlights the importance of mimicking the anisotropic structure of human heart tissue to enhance the functionality of engineered myocardium and improve cardiac tissue models' pumping performance [4]. Group 2: FLASH Technology - FLASH technology combines biomimetic structural design with scalable manufacturing processes, paving the way for organ-level cardiac models suitable for disease modeling, drug testing, and regenerative therapy [7]. - This microfluidic platform assembles high cell density microfibers, with a core made of collagen/matrix gel containing cardiomyocytes and a sheath layer of alginate containing endothelial cells [5]. - Compared to traditional bioprinting techniques, FLASH achieves over 90% alignment rate of cardiomyocytes, adjustable mechanical anisotropy, and triples the spatial resolution/manufacturing time (RTM) [5]. Group 3: Experimental Results - The spiral ventricular model constructed using FLASH demonstrates coordinated ventricular scale contraction [5]. - In a rat myocardial infarction model, cardiac patches made using FLASH significantly improved heart function and reduced fibrosis [5].