Core Viewpoint - The Shijingshan District aims to upgrade its development strategy during the "15th Five-Year Plan" period, focusing on transforming planning into reality and enhancing integration among industries, particularly in information technology and modern finance, while fostering emerging sectors like artificial intelligence and science fiction [1][2]. Group 1: Development Strategy - The core logic of development will evolve from "breaking old to establish new" to "from planning to reality and from aggregation to integration" [2]. - The goal for the "15th Five-Year Plan" is to upgrade from "physical space aggregation" to "industrial cluster ecology," creating a complete ecological chain for artificial intelligence [2][3]. - Investment of 3.8 billion yuan will be allocated for 28 key projects to enhance connectivity and integrate ecological, cultural, and industrial functions [3]. Group 2: Industry Focus - Information technology and modern finance are the district's primary industries, with a shift from "scale expansion" to "capability enhancement" planned for the "15th Five-Year Plan" [4]. - Strategies include strengthening the foundation of the information technology sector and fostering innovation in the modern finance sector through the establishment of an insurance innovation demonstration zone and a digital RMB pilot area [4]. Group 3: Emerging Industries - The district will cultivate emerging sectors like artificial intelligence and science fiction, aiming to create a diverse innovation matrix [5]. - Key initiatives include establishing the "Beijing Future Digital Space Innovation Experimental Zone" and promoting technology commercialization [5][6]. Group 4: Urban Development Projects - The "Two Parks and One River" initiative will transition from planning to execution, with projects like the revitalization of the Shilu Canal and the creation of large-scale art installations along the Yongding River [7][8]. - The district plans to enhance the waterfront area with new commercial facilities and recreational spaces, promoting a vibrant urban environment [8]. Group 5: Sports and Cultural Integration - The district aims to leverage its status as a "Double Olympic Zone" to convert sports events into economic and urban development opportunities [9][10]. - Future plans include hosting various sports and cultural events to drive tourism and local consumption, enhancing the overall value chain of events [9][10]. Group 6: Historical and Cultural Preservation - The district emphasizes the importance of preserving its industrial heritage while transforming into a modern urban area, with initiatives to protect historical sites like the Modekou Cultural Heritage District [11].

文 | 陈明一 "山东省作为中华文明的重要发祥地之一，坐拥'孔孟之乡、礼仪之邦'的厚重文化底蕴与黄河、泰山、海洋等多元地理 文化资源，文化产业发展基础坚实。《山东省文化产业科技创新行动计划（2025—2027年）》也提出'全面提升文化科 技创新能力，引领文化产业高质量发展'。" 在今年的山东省"两会"上，山东省政协委员、青岛大学艺术学院院长、山东省音协副主席、青岛市音协主席王静怡，十 分关注文化产业的高质量发展。 在她看来，全球文化产业正经历一场由数字技术引领的深刻变革。以人工智能、大数据、云计算、虚拟现实、区块链等 为代表的数字技术，不仅重塑了文化生产、传播与消费的全链条，更成为激发文化创新活力、提升产业竞争力的核心驱 动力。 最重要的是，近期，中共山东省委《关于制定山东省国民经济和社会发展第十五个五年规划的建议》提出"深入推进数 字强省建设"，并强调"统筹推进数字产业化和产业数字化"。 "与浙江、广东、北京、上海等先进地区相比，山东文化产业仍存在'大而不强、丰而不活'的问题，其症结之一就在于 对数字技术的融合应用广度、深度与速度，尚不足以撬动存量资源的创新性转化与创造性发展。"王静怡分析。 "因此，紧紧抓 ...

数字服务消费也是实数融合的典型领域。一方面，数字服务消费能够打通传统消费模式中存在的供需错 配、体验割裂等堵点，极大提升消费者的购物体验和生活品质。另一方面，数字服务消费具有便捷性、 互动性和高效性等特征，能够帮助实体经营者降低经营门槛和运营成本、拓展销售渠道，使其能够通过 数字化手段为规模更大、类型更多的消费群体提供高品质产品和服务。在此过程中，实体经济消费场景 从线下拓展至线上线下融合互动，智慧商圈、智慧街区、智慧门店等沉浸式、体验式、互动式数字服务 消费新场景不断涌现，丰富了消费内容。人工智能、虚拟现实、增强现实等技术在生产和消费过程中的 深度应用亦有力驱动"人工智能+消费"等新业态新模式发展。例如，智能穿戴设备就是人工智能、数字 孪生技术在消费领域的落地应用。 实践中，数字服务消费已经成为创新活跃和增长迅速的消费领域，在提升消费能力、增强消费意愿、优 化消费环境等方面的带动作用较强。更值得关注的是，数字服务消费能够牵引实体经济生产、流通等环 节的持续优化，在助力制造业企业降本增效、模式转变、品牌塑造方面发挥着重要作用，进而有效提升 企业的经济效益。具体来看，数字服务消费能够促使实体企业经营者充分利用数 ...

（来源：新华日报） □ 张 瑜 美育是审美教育，更是情操教育和心灵教育，对于立德树人具有不可替代的作用。当前，人工智能、虚 拟现实等技术正以前所未有的速度改变着大学生的学习与生活方式。如何在数字洪流中通过美育重塑大 学生的身心感知力，确立人的主体性地位，是当前高校美育改革必须直面的时代课题。 "求木之长者，必固其根本；欲流之远者，必浚其泉源。"在这个时代，高校美育不应随波逐流地走向彻 底的虚拟化，而应开展一场"寻根之旅"。通过大力弘扬中华美育精神，将传统工艺、书画艺术等具有强 烈具身感的课程落实到美育体系中，我们不仅是在传承文化，更是在守护"人之所以为人"的根本。让我 们以切实的感知对抗虚无的算法，以灵动的手作温润冰冷的屏幕。通过强化基于原始本能的审美体验， 我们必将培养出感知敏锐、心灵丰盈、具有强大创造力与主体性的新时代人才。 马克思在《1844年经济学哲学手稿》中曾深刻指出："人以一种全面的方式，就是说，作为一个完整的 人，占有自己的全面的本质。"当手机、笔记本电脑等智能电子设备成为大学生获取信息、社交互动的 主要介质，这种高度依赖视觉的单一感官体验虽极大地方便了信息的获取，却也导致了严重的"感知遮 蔽" ...

Core Viewpoint - The article discusses the competitive landscape in the semiconductor industry, highlighting the advancements made by China in fiber chip technology, which poses a potential challenge to the dominance of the U.S. in the chip sector [1][3]. Group 1: U.S. Dominance and China's Response - The U.S. has maintained a stronghold in the semiconductor industry, particularly in chip design and advanced technologies, using its position to exert influence globally [1]. - China, with its vast market and robust manufacturing capabilities, is seen as the only significant threat to U.S. dominance in the chip industry [3]. Group 2: Fiber Chip Technology - Recent reports indicate that China has developed the world's first fiber chip, which is considered superior to existing technologies in the U.S. [5]. - Fiber chips are made from flexible materials, allowing for deformation, unlike traditional silicon-based chips, which are rigid [5]. Group 3: Applications of Fiber Chips - The primary applications for fiber chips include brain-machine interfaces, electronic textiles, and virtual reality, where their flexibility and small size provide distinct advantages [7]. - Fiber chips are particularly suited for medical robotics, such as chips that can navigate within human blood vessels, showcasing their potential in advanced medical applications [7]. Group 4: Development and Future Prospects - The development of fiber chips was achieved by a research team at Fudan University after five years of experimentation, utilizing a multi-layer stacking architecture to integrate electronic components within the fibers [8]. - This innovation has been published in the prestigious journal "Nature," indicating that the technology is not just theoretical but has been successfully created in a laboratory setting [11]. - While fiber chips are not expected to replace silicon chips in the short term, their unique capabilities suggest they will find specific applications, and their future development remains promising [11].

扎克伯格把重心转向AI和智能眼镜 凤凰网科技讯北京时间1月26日，据CNBC报道，Meta将重心从虚拟现实(VR)转向AI和智能眼镜，这一 战略调整让整个行业感到了寒意，引发了人们对VR未来前景的担忧。 "我能切身体会到那种进入VR寒冬的感觉。"独立VR内容创作者杰西卡.杨(Jessica Young)表示，她专门 创作适用于Meta虚拟社交网络Horizon Worlds的内容。 上周，Meta裁减了现实实验室部门大约10%的员工，裁员重点集中在Quest等VR头显相关项目上。 Horizon Worlds开发团队受到重创，一些内部工作室被关闭。CNBC称，此次裁员规模约为1000人。 曾经的VR代名词 考虑到Meta自2014年以20亿美元收购Oculus以来对行业发展的巨大推动，该公司此番削减VR投资之举 尤为引人注目。 当Meta CEO马克.扎克伯格(Mark Zuckerberg)将公司名称从脸书更改为Meta时，这家企业就成为了VR的 代名词，它代表了扎克伯格对被称为"元宇宙"的数字世界未来的执着追求。自2020年底以来，Meta现实 实验室部门已累计亏损超过700亿美元。 扎克伯格的突然转向让 ...

Core Viewpoint - Lingyi Technology's stock price has shown fluctuations in recent trading sessions, with a slight increase of 2.06% on January 23, 2023, and a total market capitalization of 115.748 billion yuan [1]. Financial Performance - For the period from January to September 2025, Lingyi Technology achieved a revenue of 37.590 billion yuan, representing a year-on-year growth of 19.39%, while the net profit attributable to shareholders was 1.941 billion yuan, up 38.17% year-on-year [2]. - The company has cumulatively distributed dividends of 3.224 billion yuan since its A-share listing, with 1.512 billion yuan distributed over the past three years [3]. Stock Market Activity - Year-to-date, Lingyi Technology's stock price has increased by 1.93%, but it has experienced a decline of 4.06% over the last five trading days and a decrease of 1.00% over the last 20 days [2]. - The company has appeared on the "Dragon and Tiger List" once this year, with the most recent occurrence on January 12, 2023, where it recorded a net buy of -197 million yuan [2]. Shareholder Structure - As of September 30, 2025, the number of shareholders for Lingyi Technology reached 539,100, an increase of 82.54% from the previous period, while the average circulating shares per person decreased by 43.07% to 13,300 shares [2]. - The second-largest circulating shareholder is Hong Kong Central Clearing Limited, holding 174 million shares, which increased by 53.8917 million shares compared to the previous period [3].

1月22日，据复旦大学官微，复旦大学纤维电子材料与器件研究院、高分子科学系、先进材料实验室、聚合物分子工程全国重点实验室彭慧胜、陈培宁团 队突破传统芯片硅基研究范式，近日率先提出并制备"纤维芯片"，相关成果以《基于多层旋叠架构的纤维集成电路》为题于北京时间1月22日凌晨发表于 国际期刊《自然》（Nature）。 "纤维芯片"在手指上的打结照片 | Explore content Y About the journal Y Publish with us Y Subscribe | | --- | 记者从复旦大学获悉，该研究得到国家自然科学基金委、科技部、上海市科委等项目支持。复旦大学纤维电子材料与器件研究院、高分子科学系、先进材 料实验室、聚合物分子工程全国重点实验室教授彭慧胜、陈培宁为本论文通讯作者，博士研究生王臻、陈珂和博士后施翔为共同第一作者。 "纤维芯片"到底有何神奇之处？ 王臻说，和普通芯片不同，"纤维芯片"不仅保持了纤维柔软、可编织的本征特性，更实现了电阻、电容、二极管、晶体管等电子元件的高精度互连，光刻 精度达到了实验室级光刻机最高水平。基于"纤维芯片"，未来人类可将发光、传感等模块直接集成在一 ...

欢迎分享给你的朋友！ 该成果有望为纤维电子系统的集成提供新的路径，有望实现从"嵌入"到"织入"的转变， 助力脑机接口、电子织物、虚拟现实等新兴领域的变革发展。 来源：科技日报 End 让智能"穿"在身上！复旦大学研制"纤维芯片"。 智能设备的柔性化始终卡在一个关键瓶颈：作为"大脑"的 芯片 ，长久以来都是硬质的。 复旦大学彭慧胜/陈培宁团队 成功在弹性高分子纤维内部，构建出大规模 集成电路 ， 研 发出全新的"纤维 芯片 "， 为解决柔性化难题提供了新的有效路径。这项成果于1月22 日发表在国际期刊《自然》上。 该设计使纤维内部的空间得到极致利用，实现了一维受限尺寸内的高密度集成。 团队开发了与目前光刻工艺有效兼容的制备路线。 他们 首先采用等离子体刻蚀技术，将 弹性高分子表面"打磨"至低于1纳米的粗糙度，有效满足商业光刻要求。随后，在弹性高 分子表面沉积一层致密的聚对二甲苯膜层，为电路披上一层"柔性铠甲"。这层保护膜不 仅可以有效抵御光刻中所用极性溶剂对弹性基底的侵蚀，还能缓冲电路层受到的应变， 确保纤维 芯片 在反复弯折、拉伸变形后，电路层结构和性能依然稳定。 出品 | 中国能源报（c n e n e r ...

团队开发了与目前光刻工艺有效兼容的制备路线。他们首先采用等离子体刻蚀技术，将弹性高分子表面"打磨"至低于1纳米的粗糙度，有效满足商业光 刻要求。随后，在弹性高分子表面沉积一层致密的聚对二甲苯膜层，为电路披上一层"柔性铠甲"。这层保护膜不仅可以有效抵御光刻中所用极性溶剂对弹性 基底的侵蚀，还能缓冲电路层受到的应变，确保纤维芯片在反复弯折、拉伸变形后，电路层结构和性能依然稳定。 该成果有望为纤维电子系统的集成提供新的路径，有望实现从"嵌入"到"织入"的转变，助力脑机接口、电子织物、虚拟现实等新兴领域的变革发展。 该设计使纤维内部的空间得到极致利用，实现了一维受限尺寸内的高密度集成。 智能设备的柔性化始终卡在一个关键瓶颈：作为"大脑"的芯片，长久以来都是硬质的。复旦大学彭慧胜/陈培宁团队成功在弹性高分子纤维内部，构建 出大规模集成电路，研发出全新的"纤维芯片"，为解决柔性化难题提供了新的有效路径。这项成果于1月22日发表在国际期刊《自然》上。 ...