在大科学装置中，2025年，综合极端条件实验装置、多模态跨尺度生物医学成像设施、子午工程二期等 大科学装置通过国家验收，脑认知机理与脑机融合交叉研究平台、介科学与过程仿真交叉研究平台、北 京分子科学交叉研究平台三个院市共建交叉研究平台以及高能同步辐射光源进入试运行。 "2026年，怀柔科学城将建设国际一流的战略科技融合发展示范区，奋力实现'十五五'良好开局。"怀柔 科学城管委会相关负责人表示，怀柔科学城将围绕服务科学家和国际化多元需求，加强规划引领，交通 实现内外畅达高效，教育、医疗、商业、文体等公共服务方面持续提升质量。 本报讯（记者 张佳琪）怀柔科学城目前已布局37个科技设施平台项目。2026年，怀柔科学城将继续推 动"十三五"29个设施平台全面运行、高效利用，统筹"十四五"项目建设，围绕重点科学方向储备的"十 五五"项目也已超过30个。这是记者昨天从怀柔区两会上获悉的。 据介绍，怀柔科学城围绕物质、空间、生命、地球系统、信息与智能五大科学方向，已布局的37个科技 设施平台项目包括6个国家重大科技基础设施、17个科教基础设施、14个交叉研究平台，已成为全球重 大科技基础设施最密集、国家战略科技力量体系最完 ...

Group 1 - The event "2026 Science New Year's Eve" will feature multiple keynote speeches by scientists, focusing on innovation and exploration in various fields [1] - The keynote speech by Xu Jiyao discusses the "Meridian Project," which aims to decode the relationship between the Sun and Earth, highlighting the importance of solar storms and their impact on technology and daily life [4][5] - The project has established the largest and most comprehensive monitoring network in the Eastern Hemisphere, with 282 monitoring devices across 9.6 million square kilometers of land in China [5][6] Group 2 - The keynote speech by Ma Lei introduces a multi-modal biomedical imaging facility that aims to enhance health quality and longevity through advanced imaging technologies [7][10] - The facility consists of four major devices, including a multi-modal medical imaging device and a high-resolution molecular imaging device, which together create a comprehensive life map [11][12][13] - The facility aims to address critical health issues, such as Alzheimer's disease, by integrating various imaging data to develop predictive models for early detection [14] Group 3 - The keynote speech by Cheng Jinguang focuses on the "Extreme Conditions Experiment Facility," which can simulate extreme environments to study material properties under high pressure and temperature [17][18] - This facility plays a crucial role in testing materials for national projects, ensuring their reliability under extreme conditions [19] - The facility's development faced challenges, including the need for domestically produced equipment, which has now been successfully achieved [19] Group 4 - The keynote speech by Hou Shuisheng emphasizes the significance of duck breeding in China, highlighting the country's third-largest meat production from duck [21][24] - Advances in breeding techniques have improved growth rates and feed conversion efficiency, significantly benefiting the industry [25][26] - The integration of biotechnology in breeding has led to the identification of valuable genes that enhance meat quality and production efficiency [26] Group 5 - The keynote speech by Yang Xiuren discusses innovative construction methods in urban rail transit, specifically the modular construction approach that reduces construction time and labor [31][32] - This method has been successfully implemented in over 60 subway stations across China, demonstrating significant efficiency improvements [31][32] - The use of traditional joint techniques, such as mortise and tenon, has been adapted for modern construction to ensure structural integrity and waterproofing [33][34] Group 6 - The keynote speech by Qiu Haijun presents advancements in flexible display technology, particularly in foldable screens that enhance user experience [38][41] - The development process involved overcoming challenges related to durability and performance, resulting in significant improvements in foldability and longevity [41][42] - The company has achieved a leading position in the flexible display market, previously dominated by foreign competitors [44] Group 7 - The keynote speech by Wang He highlights the capabilities of humanoid robots in various sectors, including retail and healthcare, showcasing their potential to enhance efficiency and service quality [45][49] - The development of these robots involves advanced simulation and machine learning techniques, allowing them to operate effectively in real-world environments [48] - The goal is to integrate intelligent robots into everyday life, making them valuable partners in various industries [49] Group 8 - The keynote speech by Liu Yizhang discusses the evolution of humanoid robots, emphasizing the achievements of the Tian Gong robot in competitive events [50][55] - The team has focused on achieving high levels of autonomy and performance, with a significant portion of the robot's components being domestically produced [55] - The vision is to position Chinese robotics on the global stage, competing with leading international companies [56] Group 9 - The keynote speech by Li Jiulin reflects on the construction of iconic structures like the Bird's Nest and Ice Ribbon, emphasizing the importance of using high-quality materials [59][60] - The successful development of domestically produced high-strength steel and advanced materials has been crucial for these projects [60][61] - The innovative cooling technology used in the Ice Ribbon has set new standards for energy efficiency in sports facilities [62] Group 10 - The keynote speech by Shen Zhengchang addresses the importance of efficient mineral resource extraction and processing technologies in the mining industry [63][66] - The focus is on developing advanced flotation equipment to improve the separation of various mineral resources [66]

Core Insights - In 2025, China is making significant strides in technological innovation, showcasing various groundbreaking projects that highlight national intelligence and pave the way for future advancements [2][3][4] Group 1: Major Technological Achievements - The "China Sky Eye" FAST has discovered over 1,170 pulsars, maintaining its global leadership in pulsar detection [2] - The Jiangmen Neutrino Experiment Facility, operational in 2025, will enhance the measurement precision of solar neutrino oscillation parameters by 1.5 to 1.8 times, allowing for a reevaluation of cosmic laws [2] - The "Fighter" manned submersible has successfully completed 43 dives in the Arctic, discovering the deepest known chemosynthetic life community, making China the only country to conduct continuous manned deep dives in the Arctic sea ice region [2] Group 2: Advancements in Energy and Research Facilities - The fully superconducting Tokamak EAST is set to achieve a world record of 100 million degrees Celsius and 1,066 seconds of steady-state operation in 2025, marking a significant leap in controlled nuclear fusion from basic science to key engineering practice [2] - The thorium-based molten salt reactor has been completed and has successfully achieved thorium-uranium conversion, opening a new chapter in nuclear energy utilization [3] - A series of large scientific facilities are under construction, including advanced attosecond laser facilities, the world's first 2,000-meter deep manned laboratory, and human cell lineage research facilities capable of drug testing [3]

Group 1 - The Beijing Huairou Science City Science Facility Regional Coordination Center was inaugurated, aiming to promote collaborative development in high-tech industries between Huairou and Suzhou [1][2] - Huairou Science City is one of the four comprehensive national science centers in China, tasked with leading global scientific development and technological breakthroughs [2] - The center will facilitate the sharing of major scientific infrastructure resources and promote cross-regional collaborative innovation, effectively integrating innovation chains, industrial chains, and talent chains [2][3] Group 2 - The event featured a promotional video showcasing Huairou Science City's development vision and major scientific infrastructure, highlighting key enterprises and research platforms [3] - The center aims to provide direct access for enterprises to utilize national strategic scientific resources to overcome key technological challenges and foster new productive forces [2][3] - The Huairou district government expressed its commitment to enhancing the openness and sharing of major scientific infrastructure, inviting collaboration to explore paths for technology transfer [3]

Group 1 - The article emphasizes the importance of accelerating high-level technological self-reliance and innovation as a key driver for high-quality development [7][8] - The Beijing Huairou Science City is highlighted as a major hub for advanced scientific research, with 29 out of 37 planned scientific facilities already operational, producing 430 research outcomes [7][8] - The establishment of 19 technology service teams aims to support innovation by providing tailored assistance to researchers and entrepreneurs [8][9] Group 2 - The G60 Science and Technology Corridor is presented as a collaborative platform for regional innovation, facilitating resource flow and addressing development challenges through cooperation among nine cities [10][11] - The article notes that the average R&D investment intensity among the G60 cities reached 3.77% during the 14th Five-Year Plan period, with high-tech enterprises accounting for approximately 13.5% of the national total [11][12] Group 3 - The article discusses ecological protection efforts in Qinghai Province, emphasizing the establishment of a management system for ecological conservation in the Sanjiangyuan National Park [14][15] - The integration of ecological protection with economic development is highlighted, showcasing how local communities are benefiting from eco-tourism and sustainable practices [15] Group 4 - In Yunnan Province, the focus is on poverty alleviation through agricultural modernization, with local leaders actively seeking funding and developing livestock and medicinal herb industries [16][17] - The article mentions that since 2021, over 12,000 impoverished individuals in the region have achieved stable income through various agricultural initiatives [17] Group 5 - The article outlines the efforts of the Nanning Free Trade Zone to enhance cross-border trade efficiency, with significant improvements in customs processes leading to faster clearance times [18][19] - Data indicates that the Nanning area has seen a cumulative import and export value exceeding 290 billion yuan over the past five years, with notable growth in sectors like new energy vehicles and lithium batteries [19][20]

Core Insights - The establishment of the multi-modal cross-scale biomedical imaging facility represents a significant advancement in China's biomedical research capabilities, aiming to transform the research paradigm from reductionism to a holistic approach [1][2][3] Group 1: Facility Overview - The multi-modal cross-scale biomedical imaging facility is a major scientific infrastructure project in China, with a total investment of 1.717 billion yuan, located in Beijing Huairou Science City, covering an area of 100 acres, and officially passing national acceptance in March this year [1][2] - This facility is the only one in the world that spans ten time and spatial scales, enabling comprehensive observation and measurement of biological systems from molecular to organ levels [1][3] Group 2: Research and Development Goals - The facility aims to provide advanced observational tools for biomedical research, addressing key challenges in understanding complex diseases and facilitating drug development [3][5] - It is designed to support national-level scientific plans and enhance the efficiency of basic and clinical research, while also fostering the development of new talent in emerging fields [2][3] Group 3: Technological Innovations - Key devices within the facility include multi-modal high-resolution molecular imaging, live cell imaging, ultra-high field magnetic resonance imaging, and a full-scale image integration system [3] - The facility has achieved significant breakthroughs in high temporal and spatial resolution imaging technologies, allowing for real-time observation of biological processes [6][9] Group 4: Addressing Domestic Challenges - The facility aims to overcome the "bottleneck" issues in high-end scientific instrument development in China, promoting the domestic replacement of advanced biomedical imaging technologies [9][12] - The facility's construction has led to the development of several world-leading technologies and instruments, with a goal of achieving 40% original technology, 30% customization, and 30% procurement [9][10] Group 5: Future Aspirations - The facility plans to initiate a national-level major scientific project within five years and aims to become one of the top three biomedical imaging centers globally within ten to fifteen years [14] - It seeks to foster a cross-disciplinary innovation ecosystem, integrating various fields such as imaging theory, probe development, and artificial intelligence to enhance research capabilities [13][14]

Group 1 - The core viewpoint of the articles highlights the continuous development and success of Huairou Science City, which has become a hub for major scientific infrastructure and research collaboration [1][2][3] - Huairou Science City has accumulated 51 core technologies and produced 329 significant scientific achievements, indicating its active role in innovation and technology transfer [2] - The construction of large scientific facilities in Huairou is fostering collaborative effects among various research institutions, enhancing the quality of scientific output [2] Group 2 - The high-energy synchrotron radiation source, a key facility in Huairou, is expected to complete its process acceptance and trial operation phase by the end of this year, with plans for up to 90 beamlines to support domestic and international research teams [1] - The area has seen a significant influx of scientific talent, with 25,000 researchers currently residing in Huairou, 80% of whom hold master's degrees or higher, including international researchers [3] - Future plans aim to attract an additional 100,000 scientific and industrial talents over the next 3 to 5 years, with ongoing improvements in transportation, healthcare, and education services [3]

Group 1 - The core viewpoint of the news is the establishment of Huairou Science City as a world-class original innovation hub, featuring 37 major scientific infrastructure projects and platforms for interdisciplinary research, with significant global sharing capabilities [1][2] - Huairou Science City covers an area of 100.9 square kilometers, with 68.2 square kilometers in Huairou and 32.7 square kilometers in Miyun, aiming to match national strategic needs and enhance global scientific competition and cooperation [2] - The city has successfully opened 16 scientific facility platforms, providing over 1.23 million hours of service to more than 600 domestic and international users [2] Group 2 - The High Energy Photon Source (HEPS) is highlighted as a significant scientific facility, capable of emitting light 10 trillion times brighter than the sun, and is designed to serve various fields including aerospace, energy, and life sciences [4] - HEPS has successfully emitted its "first light," demonstrating superior penetration and resolution compared to conventional light sources, which enhances its capability to detect micro-cracks in materials [5][6] - The multi-modal cross-scale biomedical imaging facility has been recognized as a major technological infrastructure, providing a comprehensive research platform that spans multiple scales and modalities in biomedical imaging [7][8] Group 3 - The facility has produced notable early research outcomes, including advancements in non-invasive brain imaging technologies that significantly improve signal strength and reduce costs, making them more accessible for hospitals [8] - Innovations such as the ultra-high-resolution full-body PET-CT and miniaturized two-photon and three-photon microscopes are being developed to enhance early disease diagnosis and observe neural activities in small animals [8][9]