Group 1 - The 27th China Association for Science and Technology Annual Conference will be held from July 1 to July 31 in Beijing, focusing on "Tracing Technological Frontiers and Supporting Innovative Development" [1] - The main forum is scheduled for the morning of July 6, featuring prominent speakers discussing topics such as quantum technology, biomanufacturing, deep-sea technology, artificial intelligence, and agriculture [1][2] - The conference will include various exhibitions and open academic exchanges to foster a positive academic atmosphere [1] Group 2 - The latest citation report indicates that 56 Chinese scientific journals rank in the top three internationally within their disciplines, with 24 journals ranking first [2] - A new "Academic Association" service platform will be launched, providing comprehensive management systems for scientific journals and promoting data exchange and publication services [2] - The conference will host 98 specialized forums covering ten fields, including basic sciences, life health, earth sciences, ecological environment, manufacturing technology, information technology, advanced materials, resource energy, agricultural technology, and aerospace technology [2] Group 3 - The annual conference is a significant initiative for the China Association for Science and Technology to implement the spirit of the Third Plenary Session and contribute to the 14th Five-Year Plan [3] - It aims to strengthen the association's service to national strategic guidance and enhance its academic influence and cohesion among scientific workers [3]

以海天水务集团股份公司为例，其锚定交易标的公司在光伏银浆领域的技术积累、全面的产品布局、严 格的工艺标准以及丰富的专利布局等优势，通过并购重组以期加速推动公司由"传统生产"向"新质生产 力"转型。 与此同时，随着国内统一大市场的加速构建与全球产业链的深度重构，企业间的竞争已超越单一产品、 局部市场的范畴，升级为全产业链实力与创新生态的综合较量。特别是在产品同质化加剧、价格战白热 化、利润空间持续收窄的现实挑战下，以生态协同为核心的并购逻辑，正成为企业构筑竞争护城河、争 夺市场主导权的关键策略。 例如，为强化公司航空安全管控能力、补全在模拟机训练资源上的缺失，海南航空控股股份有限公司拟 收购海南天羽飞行训练有限公司100%股权，以完善航空产业链布局。 当企业凭借创新驱动与生态协同，在竞争中持续凸显优势时，将形成强大的示范效应，吸引更多企业加 入并购重组行列。而当众多企业普遍以创新驱动和生态协同为导向开展并购重组时，整个产业的技术水 平将实现显著跃升，产业结构也会持续优化，为经济高质量发展注入源源不断的动能。 证监会主席吴清在2025陆家嘴论坛上表示，完善更加适配科技创新和产业变革的金融服务体系，资本市 场大有可 ...

Group 1 - Japan's government has committed $7.4 billion (approximately 1.05 trillion yen) to quantum technology this year, which is more than three times the total investment over the past five years [1][2] - This investment represents a strategic shift driven by deep-seated concerns about historical failures in technology leadership, particularly in the semiconductor industry [3][4] - The Japanese government aims to transition from basic research to industrialization, with a clear goal of making quantum technology a pillar of future economic prosperity and national security [5][10] Group 2 - The investment is seen as a "preventive and high-risk" intervention to avoid being left behind in the global competition for technology leadership [7][9] - The government hopes to stimulate systemic change, encouraging research institutions, large enterprises, and potential startups to engage in the quantum race [8][9] - Japan's approach is characterized by a "collaborative giant ship" model, where the government leads and industrial giants collaborate, forming a powerful alliance [12][14] Group 3 - Major Japanese corporations like Toyota, NEC, and Fujitsu are expected to benefit significantly from government contracts and participation in core research projects [43][44] - The focus on building a self-sufficient supply chain for quantum technology components is a key aspect of Japan's strategy, aiming to avoid reliance on foreign suppliers [20][23] - The mixed quantum-classical computing strategy is seen as a pragmatic approach to leverage existing capabilities while aiming for quick results in various applications [17][18][19] Group 4 - Japan's commitment to quantum technology is likely to provoke responses from other major players, including the U.S. and China, potentially escalating a new round of "quantum arms race" [39][40][42] - The success of Japan's strategy will depend on overcoming challenges such as fostering a vibrant startup ecosystem and effectively translating research into marketable products [25][29][31] - Attracting and retaining top talent in the competitive global landscape is crucial for Japan to realize its quantum ambitions [32][34][38]

| 【重点企业】Orientom 将与 EQ Tech Energy 联手打造首个量子电网，推动能源基础设施革新 | | --- | | .. | | 【重点企业】Xanadu 与三菱化学合作开发 BUV 光刻量子模拟算法 13 | | 投融资 | | 【重点事件】量子纠错技术公司 QEDMA 获 2600万美元融资, IBM 参与投资攻关量子计算难题 15 | | 【重点事件】D-Wave 完成 4 亿美元股票增发,加速量子计算商业化布局 15 | | 【重点事件】荷兰量子公司 Groove Quantum 获 1000万欧元 BIC 加速器资金, 专注猪基量子计 | | 15 算 . | | 【新】【 【 | 【重点政策】欧盟委员会启动量子技术战略，力争2030年抢占全球领导地位 欧盟委员会正式推出量子技术战略，力争2030年前使欧洲成为全球量子领域领导者。该战略将培育具备韧 性与主权的量子生态系统，加速初创企业成长，推动突破性科研成果转化为市场级应用，同时巩固欧洲的 科技领导地位。 量子技术将革命性地应对复杂挑战——从医药研发突破到关键基础设施安全防护，为欧盟工业竞争力与技 术主权开辟新机遇，并在国防安 ...

Core Insights - The core viewpoint of the articles is the current state and future path of quantum technology, particularly focusing on quantum information technology, which is driving the second quantum revolution [1][2]. Group 1: Quantum Technology Overview - Quantum technology is defined as "quantum information technology," which includes quantum computing, quantum communication, and quantum precision measurement [1]. - Quantum communication has established wide-area networks and practical terminal products, while quantum precision measurement is showing application value in navigation and medical fields [1]. - Quantum computing is still in the experimental research phase, with the "Zuchongzhi No. 3" superconducting quantum computing prototype recently achieving the strongest "quantum computing superiority" published to date [1]. Group 2: Challenges in Industrialization - The industrialization of quantum computing may take another 10 to 15 years, primarily due to the lack of practical algorithms suitable for current quantum computers [2]. - Traditional sectors pose resistance to the adoption of quantum technology, as existing interests may hinder the integration of new technologies like quantum secure communication [2]. - There is a concern about unrealistic promotion of immature technologies by some companies, which can mislead the public and investors, damaging the credibility of quantum technology [2]. Group 3: Recommendations for Development - To promote the industrialization of quantum technology, continuous investment and support from both government and private sectors are essential [2]. - There is a need for a consensus across society to allow time and space for technology to grow, as well as the cultivation of interdisciplinary talents who understand quantum principles and can operate relevant equipment [2][3]. - The development of quantum technology relies on the manufacturing of essential equipment such as electron beam lithography machines, molecular beam epitaxy, and dilution refrigerators [3].

中国科协副主席、中国科学院院士潘建伟，中国人工智能学会理事长、中国工程院院士戴琼海，中国海 洋学会副理事长、中国工程院院士李家彪，中国作物学会理事长、中国农学会副会长、中国工程院院士 万建民，中国可再生能源学会理事长、中国工程院院士谭天伟，分别围绕量子技术、人工智能、深海科 技、种业振兴、生物制造等主题作主旨报告。 主论坛上，中国科协还发布2025重大科学问题、工程技术难题和产业技术问题，包括具有引领性、创新 性、战略性的30个问题难题，推动研判未来科技发展趋势，前瞻谋划前沿科技领域与研究方向。 来源：中国新闻网 中新网北京7月6日电 (记者 孙自法)第二十七届中国科协年会主论坛7月6日在北京举行，中国科协主席 万钢出席并致辞，中国科协党组书记贺军科主持主论坛，五位院士专家应邀作主旨报告。 中国科协主席万钢出席主论坛并致辞。中新网记者 孙自法 摄 万钢表示，本届年会旨在紧跟世界科技前沿发展态势，锚定科技强国目标，交流新理论、新观点、新学 说，探讨新领域、新赛道、新机遇。科协组织将致力于把握科技前沿的发展态势，丰富高质量科技供 给；发挥跨界融合的组织优势，开展高水平科技咨询；倡导务实开放的会风学风，促进高效率学 ...

文 | 制造前沿 当时间迈入2025年，我们正处在一个由技术重新定义国家力量、经济版图乃至人类文明走向的时代。在 此背景下，哈佛大学肯尼迪学院贝尔弗中心最新发布的《2025全球关键和新兴技术指数报告》，为我们 揭示了全球技术竞争的激烈全景。 这份长达七十余页的报告，对全球25个主要国家在人工智能、生物技术、半导体、太空和量子技术这五 大核心战场上的综合实力进行了精准量化评估，呈现出一幅中美双雄争霸、欧洲奋力追赶的全球科技新 版图。 图源：2025全球关键和新兴技术指数报告 0 1 技术权重分配：半导体的"心脏"地位 为了精准度量无形的技术实力，报告构建了一套创新性的技术指数体系。五大关键技术领域被赋予了不 同的战略权重： 五大关键技术 - 半导体（35%）：作为支撑整个现代技术生态的"心脏"和数字时代的"石油" - 人工智能（25%）：影响力已渗透到经济、军事和社会的每一个毛细血，被视为"竞争倍增器" - 生物技术（20%）：直接关系到国民健康、粮食安全乃至伦理边界 - 太空技术（15%）：在通信、国防和资源探索方面具有巨大战略价值 - 量子技术（5%）：代表着计算与通信的未来革命，仍处早期阶段，但潜力巨大 ...

未来产业高度依赖前沿技术，量子产业能够在合肥落地扎根，离不开当地得天独厚的技术优势。 一台普通的智能手机，经过软件定制，插上量子SIM卡，便可以进行无法被窃听的量子加密通话。7月2 日，科技日报记者跟随"活力中国调研行"安徽主题采访活动来到位于合肥的中电信量子信息科技集团有 限公司（以下简称"中电信量子集团"）。展厅里，工作人员向记者演示了公司的量子加密通话技术。该 技术将量子加密技术与即时通信技术融合，由此打造的量子密信密话产品目前已获近600万用户青睐。 合肥是我国量子科技创新的重要策源地，集聚了全国近1/3的量子科技企业。围绕培育壮大量子产业， 合肥正全面发力，将前沿科技转变为推动未来产业发展的澎湃动力。 从实验室走向生产线 初创阶段，企业发展最需要的是资金。量子产业前期投入大，营收少，更需要耐心资本的长期支持。 幺正量子科技有限公司是一家从事分布式离子阱量子计算研究的企业。公司成立时，需要启动资金3000 万元，而创业团队自有资金不到200万元。关键时刻，合肥市及高新区的相关投资机构相继向其投资 3000万元，解了企业燃眉之急。公司成立一年后，便完成了高通光离子阱量子计算工程机的研制，具备 了整机交付 ...

二是提升双边合作质量。中德互为各自地区最大贸易伙伴，双边贸易额连续9年超过2000亿美元。对华 贸易支撑起100万德国就业岗位，中国市场吸引了5000多家德企在华投资兴业。加强互利合作是中德双 方的"必选项"，是两国关系的"压舱石"，也同德国新政府聚焦经济发展的施政目标相吻合。双方还就各 自的经贸关切进行了深入探讨，一致同意为务实合作搭建更为稳定、可预期、可信赖的政策框架。中国 加快走向现代化将为德国和欧洲企业提供新的发展机遇。中德在绿色转型、人工智能、量子技术等前沿 领域有着广阔前景，双方拉紧利益纽带，追求命运与共，才能有效抵御外部风险挑战。 新华社柏林7月3日电 当地时间7月3日，中共中央政治局委员、外交部长王毅在同德国外长瓦德富尔共 同会见记者时表示，本次中德外交与安全战略对话全面、务实、坦诚并富有建设性，增进了彼此理解， 扩大了双方共识。双方都认为，应沿着相互尊重、求同存异、互利共赢的正确轨道，推动中德全方位战 略伙伴关系取得新的发展。 王毅说，今年是世界反法西斯战争胜利80周年和联合国成立80周年，但单边主义、保护主义、强权霸凌 行径正在给世界带来严峻挑战。在百年变局加速演进背景下，大国应当勇立潮头 ...

Core Viewpoint - Europe is at risk of falling behind in the quantum technology race, similar to its experience in artificial intelligence, as it struggles to convert research into market opportunities and attract significant investment compared to the US and China [1][2][4]. Investment Landscape - The EU has only attracted 5% of global private quantum technology funding, while the US and China have secured over 50% and 40% respectively [1]. - The EU has committed €11 billion to quantum technology, but there is a need for better resource integration to enhance impact [5]. Commercialization Challenges - Europe leads in scientific publications in quantum technology but ranks third in patent applications, trailing behind the US and China [1]. - Companies in Europe face difficulties in scaling due to a lack of sufficient support and venture capital [4][5]. Strategic Initiatives - The EU's strategy includes launching two major challenges between 2025 and 2027, focusing on quantum computing and quantum navigation systems [7]. - The EU plans to support innovation-oriented procurement to help companies commercialize technology, although specific implementation details are lacking [7]. Regulatory Environment - There is a debate on whether Europe will allow the quantum industry to develop freely, given the sensitivity of quantum technology related to national security [2]. - Industry leaders caution against premature regulation, referencing the EU's previous regulatory approach to artificial intelligence as a potential misstep [7].