每经AI快讯，1月20日，国盾量子(688027.SH)公告称，公司拟与中国科学技术大学签订专利/专有技术 实施许可合同，涉及4项专利、3项软著及2项专有技术，并支付入门费及销售分成。同时，公司还拟与 上述技术成果的另一所有权人签署相同条款的合同。此次关联交易不会影响公司经营独立性，且已通过 董事会审议，尚需提交股东会审议。 ...

1月15日，记者从中国科学技术大学获悉，该校张树辰特任教授团队联合美国普渡大学、上海科技 大学的研究团队，首次在二维离子型软晶格材料中，实现了面内可编程、原子级平整的"马赛克"式异质 结可控构筑，为低维光伏材料的集成化与器件化开辟了全新路径。相关成果15日在线发表于国际学术期 刊《自然》。 （原载于《科技日报》 2026-01-16 01版） 在半导体领域，能够在材料平面内横向精准构建异质结构，是探索新奇物性、研发新型器件及推动 器件微型化的关键。然而，以二维卤化物钙钛矿为代表的离子型软晶格半导体，其晶体结构柔软且不稳 定，传统光刻加工等技术往往因反应过于剧烈而破坏材料结构，难以实现高质量、可控外延的横向异质 集成。 "这种全新的加工方法，不是通过'拼接'不同材料，而是在同一块完整晶体中，引导它自身进行精 密的'自我组装'。"张树辰说，"这意味着，未来我们有可能在一块极薄的材料上，直接'生长'出密集排 列的、能发出不同颜色光的微小像素点，为高性能发光与显示器件的发展，提供一种全新的备选材料体 系和设计思路。" 面对这一挑战，研究团队提出并发展了一种引导晶体内应力"自刻蚀"新方法。他们设计了一种温和 的配体—溶 ...

本网讯（记者 陈婉婉）记者1月15日凌晨从中国科学技术大学获悉，该校张树辰特任教授团队联合中外 学者，在新型半导体材料领域取得重要进展。团队首次在二维离子型软晶格材料中，实现了面内可编 程、原子级平整的"马赛克"式异质结可控构筑，为未来高性能发光和集成器件的研发开辟了全新路径。 相关成果于北京时间1月15日在线发表于国际权威学术期刊《自然》。 在半导体领域，能够在材料平面内横向精准构建异质结构，是探索新奇物性、研发新型器件及推动器件 微型化的关键。然而，以二维卤化物钙钛矿为代表的离子型软晶格半导体，其晶体结构柔软且不稳定， 传统光刻加工等技术往往因反应过于剧烈而破坏材料结构，难以实现高质量的横向异质集成。如何在此 类材料中实现高质量、可控外延的横向异质结精密加工，是该领域面临的重要科学难题。 （来源：安徽新闻网） 转自：安徽新闻网 "这种全新的加工方法。不是通过'拼接'不同材料，而是在同一块完整晶体中，引导它自身进行精密 的'自我组装'。"张树辰解释，"这意味着，未来我们有可能在一块极薄的材料上，直接'生长'出密集排 列的、能发出不同颜色光的微小像素点，为未来的高性能发光与显示器件的发展，提供一种全新的备选 ...

Core Viewpoint - The construction of the University of Science and Technology of China Business School project has made significant progress, marking a key phase in high-quality development of this provincial key project [1] Group 1: Project Progress - The interior and exterior decoration of the auditorium has been fully completed, and outdoor supporting works are steadily advancing [1] - The main teaching building and comprehensive service building have successfully topped out and passed the quality structure acceptance in Hefei, transitioning to the interior and exterior decoration construction phase [1] - The curtain wall project has also been initiated, indicating a critical period for the construction of this provincial key project [1] Group 2: Project Specifications - The project is located in the High-tech Zone with a total construction area of approximately 183,100 square meters, including various functional spaces such as teaching, laboratories, product research and development centers, technology achievement exhibition halls, and data centers [1] - The main teaching building consists of 8 floors above ground, with a single building area of 91,300 square meters, utilizing a steel frame super-limit system combined with anti-buckling composite steel plate shear walls, with a steel usage of approximately 15,000 tons, making it the largest single project in Anhui province in terms of steel usage [1] Group 3: Construction Technology and Efficiency - All participating units adhere to the philosophy of "safety first, quality-based, and striving for excellence," overcoming a series of technical challenges such as "large cantilevers, multi-curved surfaces, and super-limit structures" [1] - The project has introduced "third-generation unmanned smart tower cranes" for precise all-weather steel structure hoisting and employed rebar tying robots to significantly enhance construction efficiency [1] - Utilizing BIM modeling and quality traceability technologies, the project achieves precise control over the entire construction process, ensuring construction quality while greatly improving construction efficiency [1]

Core Insights - A new low-cost solution for all-solid-state lithium batteries has been proposed by Professor Ma Cheng from the University of Science and Technology of China, addressing the challenge of maintaining good interface contact without relying on high external pressure [1] Group 1: Technical Innovations - The newly developed solid electrolyte, lithium zirconium aluminum chloride oxide, has a Young's modulus of less than 25% and hardness of less than 10% compared to other mainstream inorganic solid electrolytes, making it suitable for commercial production [2] - The solid electrolyte maintains its inorganic powder form, allowing for effective adaptation to large-scale roll-to-roll production processes [2] Group 2: Performance Improvements - The lithium zirconium aluminum chloride oxide enables the pressure required for stable cycling of all-solid-state lithium batteries to be reduced from tens or hundreds of megapascals to just 5 megapascals, achieving hundreds of stable cycles at this lower pressure [2] - The core raw material for this new electrolyte, zirconium tetrachloride, is highly economical, costing less than 5% of mainstream sulfide solid electrolytes, indicating strong commercial viability [2]

Group 1 - During the "14th Five-Year Plan" period, Anhui Province has made significant achievements in education, with key indicators such as preschool enrollment rate exceeding 99%, compulsory education consolidation rate at 98.7%, and high school enrollment rate at 92%, all meeting or exceeding national averages [1] - The education modernization index improved from 18th in the nation in 2021 to 12th in 2024, indicating a substantial enhancement in educational strength [1] - A total of 15 counties (cities, districts) have been recognized for quality balanced development in compulsory education, and 24 counties (cities, districts) for universal preschool education [1] Group 2 - In the past three years, Anhui's universities have led or participated in over 95% of the provincial natural science first prizes and over 63% of the provincial science and technology progress first prizes, showcasing continuous innovation [2] - A total of 227.2 million talents have been trained by universities in the province, with a stable graduate employment rate of around 90%, providing strong support for regional development [2] - The province has established 17 "Big Ideological and Political Course" practical teaching bases and 10 red resource bases, leading the nation in the establishment of a provincial-level online ideological and political center [2] Group 3 - Three universities have been included in the second round of "Double First-Class" construction, and 18 universities have 100 disciplines ranked in the top 1% globally in ESI, representing a growth of 143.9% since the end of the "13th Five-Year Plan" [3] - The proportion of provincial universities serving emerging industries has reached 72.2%, with significant collaboration between 761 innovation teams from 78 universities and 528 leading enterprises [3] - Major scientific achievements, such as quantum computers and ultra-low temperature dilution refrigerators, highlight the innovative capabilities of Anhui's education sector [3]

Core Viewpoint - The article emphasizes the urgent need for integrated development of education, technology, and talent in China to achieve high-quality development and self-reliance in technology, particularly in strategic fields and innovative talent cultivation [2][4]. Group 1: Integrated Development Initiatives - The Chinese Academy of Sciences (CAS) is leading the establishment of demonstration zones for integrated education, technology, and talent development, with a focus on strategic planning and collaboration with universities [4]. - The CAS has highlighted the importance of deep cooperation between universities and research institutes, particularly in the context of the China University of Science and Technology (USTC), which has produced a significant number of academicians [4]. - The "14th Five-Year Plan" emphasizes the need for a coordinated approach to education, technology, and talent development, with specific tasks outlined for 2026 [2][6]. Group 2: Regional Development Examples - The Xi'an Xixian New Area is set to establish an integrated development demonstration zone by 2024, aiming to attract 30,000 research talents and establish several national-level innovation platforms by 2027 [5]. - Beijing is also promoting integrated development through the Huairou Science City initiative, which focuses on creating a collaborative environment for education and technology [5]. Group 3: Mechanism Improvement - The article discusses the necessity of establishing a coordinated mechanism for integrated development, addressing past issues of independent operation in education, technology, and talent sectors [6][7]. - Local governments are forming leadership groups to facilitate the integration of education and technology, which is seen as a key measure for advancing this initiative [7]. Group 4: Strategic Talent Development - The Ministry of Science and Technology is adjusting higher education disciplines to align with national strategic needs, having updated over 20% of academic programs since 2023 [8][10]. - There is a focus on developing urgent disciplines and enhancing collaboration between educational institutions and industries to meet the demands of emerging fields [9][10]. Group 5: Evaluation and Incentives - The article highlights the importance of reforming talent evaluation and incentive systems to support integrated development, including long-term evaluations for researchers and competitive salaries for overseas talents [11][12].

Core Insights - The article highlights the ongoing construction of a student dormitory at the Chinese Academy of Sciences' Institute of Metal Research, emphasizing the urgency to complete the project ahead of schedule for student occupancy by September next year [3][4]. Group 1: Project Overview - The dormitory project has a total construction area of over 42,000 square meters, which includes dormitories, a gymnasium, and supporting facilities [3]. - The original contract deadline was set for June 18 next year, but the project manager is negotiating to finish the main interior work before the Spring Festival to allow for adequate ventilation [3][4]. Group 2: Construction Management - The construction team works long hours, often from early morning until late at night, to manage the logistics of transporting materials and ensuring timely installation [4]. - A "sales list" is maintained to track minor corrections needed during the final stages of construction, emphasizing the importance of quality and attention to detail in delivering a livable space [4]. Group 3: Personal Commitment and Community Impact - The project manager expresses pride in contributing to significant local projects, particularly those that serve educational purposes, reflecting a deep sense of responsibility towards the community [5]. - The construction industry in Shenyang is experiencing a shift, with a focus on project completion and quality, as evidenced by the completion of nearly 3,000 key projects in 2025 [6]. Group 4: Broader Industry Context - The article mentions various significant projects in Shenyang, including the Wangjiabao Ice Sports Center and the BMW sixth-generation power battery project, indicating a robust construction and development environment [6]. - The successful listing of Northeast China's first public REITs and the efficient operation of the China-Europe Railway Express (Shenyang) center highlight ongoing reforms and investments in the region [6].

Core Insights - The article highlights a significant advancement in quantum error correction achieved by the team led by Academician Pan Jianwei, utilizing the superconducting quantum processor "Zuchongzhi 3.2" [1] - This progress lays an important foundation for the practical application of quantum computers, marking a key milestone in the global quantum computing field [1] Group 1: Technological Advancements - The "Zuchongzhi 3.2" quantum processor, based on 107 qubits, has implemented a new "full microwave quantum state leakage suppression architecture" by 2025 [1] - Performance improvements in single-qubit and two-qubit gate manipulation accuracy, as well as readout fidelity, have been achieved compared to previous processors [1] - The research team successfully demonstrated a surface code logical qubit with a code distance of 7, where the logical error rate significantly decreases as the code distance increases, proving the system operates below the error correction threshold [1] Group 2: Implications for Quantum Computing - Achieving "below threshold" quantum error correction is a core goal pursued in the quantum computing field and is crucial for validating whether quantum computing systems can transition from prototypes to practical applications [1] - This new technological approach provides a more advantageous solution for constructing million-qubit level quantum computers in the future [1]

Core Insights - The research team led by Academician Pan Jianwei at the University of Science and Technology of China has made significant progress in quantum error correction, achieving a milestone of "below threshold, the more correction, the more accurate" with the superconducting quantum processor "Zuchongzhi 3.2" [1][2] - The new "full microwave quantum state leakage suppression architecture" proposed in 2025 enhances the performance of the "Zuchongzhi 3.2" processor in single and two-qubit gate manipulation accuracy and readout fidelity compared to previous generations [1] - The successful implementation of surface code logical qubits with a code distance of 7 demonstrates that the system operates below the error correction threshold, validating the goal of "the more correction, the more accurate" [1] Industry Implications - Achieving "below threshold" quantum error correction is a long-sought core objective in the global quantum computing field and represents a critical milestone for transitioning quantum computing systems from prototypes to practical applications [2] - This new technological approach provides a more advantageous solution for constructing million-qubit level quantum computers in the future [2]