在实现 "双碳" 目标的关键时期，能源动力技术创新成为焦点。为突破我国在能源动力领域超临界二氧化碳发电（简称 "超二发电"）的核心瓶颈，国内热管 理领域引领者沈氏科技与西安交通大学达成深度战略合作，"沈氏科技 - 西安交大先进能源动力技术研究院" 正式成立。 "沈氏科技 - 西安交大先进能源动力技术研究院" 的成立，标志着我国在先进能源动力技术研发与产业化方面迈出了坚实一步。未来，双方团队将携手努力， 力争将研究院打造成能源动力领域的创新地标，为我国能源结构转型与低碳发展贡献核心力量，也为全球能源技术创新提供中国方案。 T 89 温 Superall . . 据悉，出席今天仪式的嘉宾有建德市委常委周密，建德市科技局党组书记、局长吴雯，航头镇党委书记郑雄，建德市财政局党组副书记、副局长李鹏，西安 交大科研院产教融合与成果转化处副处长、能源与动力工程学院教授/博导高忠权，西安交大能源与动力工程学院副院长、教授/博导侯予，西安交大能源与 动力工程学院教授/博导、先进动力能源多相流创新团队带头人白博峰，西安交大能源与动力工程学院教授赵亮，沈氏科技董事长沈卫立，沈氏科技总经理 沈泽奇，沈氏科技副总经理赵博，沈氏科技副总 ...

Group 1 - The third Youth Scientist Innovation Development Conference was held in Jinan, Shandong, focusing on supporting young scientific talents and fostering their growth through various activities and platforms [1][2][3] - The conference emphasized the importance of mentorship from experienced scientists to guide and inspire young talents, creating a collaborative environment for knowledge transfer [4][5] - A significant feature of the conference was the industry demand matching event, which facilitated direct interactions between young scientists and business leaders, leading to potential collaborations [7][8] Group 2 - The Shandong Provincial Youth Talent Support Project has been instrumental in providing resources and opportunities for young scientists, with 342 talents selected since its inception in 2018 [10][11] - The establishment of a new online service platform aims to enhance the connection between young scientific talents and industry needs, promoting efficient technology transfer and collaboration [11] - The conference showcased various activities designed to support young scientists, including forums, dialogues, and workshops, all aimed at enhancing their innovation capabilities and career development [2][3][10]

Group 1 - The 2025 Robot World Cup held in Salvador, Brazil, showcased Chinese university teams excelling in "autonomous perception" and "intelligent collaboration" [1] - The event attracted around 2,000 participants from 40 countries and regions, with over 150,000 attendees, making it one of the largest robot technology competitions globally [1] - The humanoid robot category was particularly highlighted, with five Chinese university teams participating in a new 3-on-3 "unprotected" autonomous competition format [1] Group 2 - The new competition format demands higher reliability from hardware, the ability for robots to self-right after falling, environmental perception, and comprehensive movement and ball handling capabilities [2] - Chinese teams achieved historic breakthroughs, with Tsinghua University winning the humanoid group championship and technical challenge, while China Agricultural University secured the runner-up position [2] - The advancements in hardware platforms and AI algorithms demonstrate China's leading position in the autonomous robot platform sector [2] Group 3 - Chinese technology is aiding international teams, with German and American teams utilizing robots developed by Beijing Accelerated Evolution Technology Co., which are noted for their stability and low hardware failure rates [3] - The company's self-developed robot platform integrates high-strength shells, advanced perception algorithms, and reinforcement learning frameworks, suitable for both top universities and educational outreach [3] - The collaboration between academia and industry is emphasized as a key factor in the technological breakthroughs achieved at the competition [3]

Core Insights - The "2025 China Township Comprehensive Competitiveness Report" highlights Danbei Town's rise to 83rd place among the top 100 towns in China, marking a 7-position increase from the previous year, driven by its unique industrial clusters, innovation, and project development [1] Group 1: Industrial Foundation - Danbei Town is recognized for its strong industrial base, being known as the "hometown of auto parts, hardware tools, and new machinery," with 276 industrial enterprises above designated size [2] - The town is the largest production base for agricultural and garden machinery in Asia and the world's largest producer of high-speed tool steel and twist drills, achieving sales of 110.5 billion yuan in equipment manufacturing in 2024 [2] - The auto parts industry in Danbei is robust, ranking among the top in the country, with sales reaching 237 billion yuan in 2024, and the town's advantageous industries account for 80% of the industrial output [2] Group 2: Innovation and Talent - Danbei Town focuses on innovation to address industrial upgrades, with significant investments in technology and talent development [3] - The town's enterprises have made breakthroughs in critical technologies, such as titanium alloys and powder metallurgy, with a notable project breaking international monopolies [3] - In 2024, Danbei's technology contract transaction volume reached 2.3 billion yuan, with 97 effective invention patents, showcasing the integration of industry, academia, and research [3][4] Group 3: Project Development - Danbei Town has maintained a GDP growth rate of 7% for four consecutive years, attributed to its strategic focus on project development [5] - The town encourages local enterprises to upgrade their technology and has attracted external investments, such as the automotive safety airbag project with an Austrian company [5] - In 2025, Danbei plans to advance 18 technology upgrade projects with a total investment of 3.4 billion yuan and is pursuing additional projects in new materials and new energy auto parts with a total investment of 7.2 billion yuan [5]

Core Viewpoint - The successful establishment of a high-density spinning production line at Huafeng Chongqing Spandex Co., Ltd. marks a significant advancement in the industrialization of high-strength, high-temperature resistant polyurethane elastic fibers, generating over 200 million yuan in new sales revenue. This achievement is attributed to the collaboration between enterprises, universities, and research institutions, highlighting the importance of deep integration of industry, academia, and research [1][2]. Group 1 - The advanced materials industry in Fuling District, Chongqing, is robust, with an expected output value of 138.8 billion yuan in 2024, accounting for over 25% of the city's total [1]. - The Fuling District faced challenges in the advanced materials industry, including a lack of overall coordination in R&D, barriers to talent mobility, and difficulties in benefit distribution [1]. - To overcome these challenges, Fuling District initiated a reform of the talent innovation consortium in early 2023, led by Chongqing Huafeng Chemical Co., Ltd., involving 28 units including upstream and downstream enterprises, universities, research institutes, and industry associations [1][2]. Group 2 - The consortium employs an "industry proposes questions, talent answers, all parties collaborate" model, establishing 21 technical project teams and a corresponding list of common technical challenges [2]. - The consortium has created a "shared pool for results transformation" and a "joint intellectual property consortium," implementing a tiered profit distribution system and a risk-sharing closed loop [2]. - Since its establishment, the consortium has achieved 11 results transformations, filed 16 new patent applications, and secured city-level support for 7 key research projects [2].

南邮两学院"安家"南京经开区，打造校地合作新标杆 学院落在产业园 课堂搬进企业里 □ 南京日报/紫金山新闻记者 王婷婷 11年来，南京邮电大学和南京经开区不断推动高校智力资源与开发园区产业优势深度融合，成就"双高协同"发展典范。此次"学院落在产业园、课 堂搬进企业里"的产教融合新创举，不仅为应用型人才培养提供了可复制的范式，更成为区域校地合作的创新标杆。 通讯员 石云霞 王子君 王刚 2014年，南邮信息产业技术研究院在南京经济技术开发区正式成立，成为南京邮电大学与南京经济技术开发区校地合作的"破题之作"；2024年， 双方深入商议共同建设省级卓越工程师学院，"双向奔赴"再次升级；今年，校地合作续写"崭新一页"——南京邮电大学江苏省卓越工程师学院和 江苏省人工智能学院挂牌成立，以实体化的方式落地红枫科技园…… 南邮信产院 学科跟着产业走，入校即实践 两个月后，作为融合教学、科研、孵化功能的新型空间，红枫科技园B3栋将正式迎来第一批师生。 "学院入驻产业园为南邮师生带来了全新的发展机遇，最直观的转变就是创新生态的全面升级。师生们从校园走进产业创新前沿阵地，实现'实验 室与生产线零距离、科研攻关与市场需求无缝对接 ...

Core Viewpoint - The collaboration between Jiangsu Provincial Institute of Industrial Technology and Suzhou University aims to establish a "Co-op" education model that integrates academic learning with paid internships, enhancing the development of innovative talents in key industries [1][5]. Group 1: Education Model - The "Co-op" model, originating from the University of Cincinnati, emphasizes paid internships for undergraduate students, allowing them to gain practical experience while studying [1][2]. - Students in the "Co-op" program will undertake at least three internships during their four years of study, each lasting no less than four months, totaling a minimum of 12 months of practical experience [2][3]. - The program focuses on five key areas in the Yangtze River Delta region: equipment manufacturing, biomedicine, new generation information technology, advanced materials, and energy conservation [1][5]. Group 2: Implementation and Impact - The Suzhou University experimental class will implement a three-semester academic year, allowing students to participate in 3 to 4 paid internships across various companies and positions [3]. - The program has already facilitated internships for 95 domestic students and 57 international students from universities such as the University of Waterloo and Monash University [5]. - The initiative aims to cultivate 500 undergraduate students in the future, contributing to the reform of engineering education and fostering truly innovative talents [5].

Core Viewpoint - The event in Kunshan aims to connect high-quality enterprises with universities to promote employment opportunities for graduates, highlighting the city's strong industrial base and demand for skilled talent [1][2][3]. Group 1: Employment Initiatives - The "Hundred Counties to Hundred Schools Employment Promotion Action" is a key initiative by the Ministry of Education to enhance job opportunities for graduates by connecting them with quality job resources in county-level economies [1][2]. - Kunshan has established a talent delivery mechanism with over 120 universities and launched initiatives like the "Hundred Schools Thousand Enterprises" recruitment plan to attract graduates [2]. Group 2: Event Details - The event featured over 110 quality enterprises from Kunshan and attracted participation from 113 universities across 28 provinces, facilitating discussions on talent cultivation and technology transfer [2]. - A special area was set up for Kunshan's innovative professional parks, promoting collaboration between local enterprises and universities in fields such as technology research and software engineering [2]. Group 3: Government Support - The local government has introduced various talent incentive policies, including housing, entrepreneurship support, and low-cost office space for startups, to encourage graduates to settle in the community [2]. - The city aims to introduce over 100,000 graduates in the next three years through tailored measures as part of its employment boost initiative [2].

Group 1 - Education, technology, and talent are foundational and strategic supports for China's modernization, emphasizing the need for a virtuous cycle among education, technology, and talent [1] - Higher education institutions are crucial for developing technology and nurturing talent, which are essential for driving innovation and supporting China's modernization efforts [1] Group 2 - Talent is recognized as the primary resource for innovation, and higher education institutions must integrate moral education with talent cultivation to produce innovative talents [2] - The reform of ideological and political courses is highlighted as a means to instill values and enhance students' capabilities, ensuring a comprehensive talent development system [2] - The role of artificial intelligence in personalizing and optimizing talent training is emphasized, alongside the need for a global perspective in nurturing innovative talents [2] Group 3 - There is a call for collaboration between basic and interdisciplinary sciences to cultivate composite talents needed for economic and social development [3] - Higher education must innovate its discipline systems to activate innovation potential and support high-level technological self-reliance [3] - The focus is on long-term support strategies for foundational disciplines and the establishment of interdisciplinary collaborative entities to drive technological innovation [3] Group 4 - Deep integration of industry, academia, and research is essential for accelerating the cultivation of innovative talents and leading technological innovation [4] - Higher education institutions are urged to enhance their talent cultivation systems and collaborate with industries to address technological challenges [4] - The establishment of specialized technology transfer institutions and a differentiated talent cultivation model is necessary to align talent supply with regional industrial upgrades [4]

Core Viewpoint - The innovative bioprotein-mediated technology developed by Hunan University of Technology has achieved significant success in the efficient recovery of precious metals from lithium battery tailings, marking a milestone in the resource utilization of solid waste in the new energy sector [1][3]. Group 1: Technology and Innovation - The bioprotein-mediated gradient recovery system addresses three major industry challenges: difficulty in separating low-grade tailings precious metals, high recovery costs, and potential secondary pollution [1][3]. - The technology has been patented with four national invention patents and is considered a crucial pillar for promoting the circular development of the lithium battery industry [1][5]. - The average content of lithium, cobalt, and nickel in lithium battery tailings is 2.3 kg, 1.8 kg, and 3.5 kg per ton, respectively, which could meet 15% of the global demand for lithium battery raw materials if efficiently recovered [3]. Group 2: Environmental and Economic Impact - The new technology has increased the total recovery rate of precious metals from tailings to 92%, reduced processing costs by 58%, and eliminated harmful gas emissions during the process [3][5]. - The purity of lithium obtained from the tailings reaches battery-grade standards (99.95%), with cobalt and nickel recovery rates improved by 42% and 37% compared to traditional methods [5]. - The carbon emissions during the processing are reduced by 76% compared to traditional pyrometallurgical methods, showcasing a significant environmental benefit [5]. Group 3: Industry Collaboration and Future Prospects - Leading companies in the industry, such as BYD and Bangpu Recycling, have shown interest in collaborating on the industrialization of this technology [5][7]. - The research team is establishing a comprehensive innovation system that integrates microbial screening, protein modification, pilot testing, and industrial application [7]. - The team aims to explore a deep integration path of industry-university-research collaboration to ensure that technological innovations effectively support industrial development [7].