Core Viewpoint - The article envisions a future 20 years from now, highlighting advancements in technology, environment, transportation, architecture, and culture, particularly emphasizing the integration of robotics and preservation of cultural heritage [1] Group 1: Technological Advancements - The future home is equipped with a robotic butler that tailors meals based on individual health and dietary preferences, showcasing advancements in personal robotics [1] - Educational support is provided by a robotic teacher, making homework assistance more accessible and efficient [1] - Emergency medical assistance is revolutionized by nano-robots that can be summoned via smartphone, indicating significant progress in healthcare technology [1] Group 2: Cultural Preservation - The future school curriculum includes courses on intangible cultural heritage and local dialects, reflecting a commitment to preserving traditional culture alongside technological progress [1] - Various forms of intangible cultural heritage, such as traditional crafts and local delicacies, are highlighted, emphasizing their importance in the future society [1] Group 3: Environmental and Societal Improvements - The envisioned future is characterized by a beautiful environment and convenient transportation, suggesting a holistic improvement in living conditions [1] - The article expresses optimism that collective efforts will lead to the realization of this bright future for the hometown, indicating a positive societal outlook [1]

2 0 1 7 年 的 那 些 傍 晚 ， Sy l v a i n M a rt e l 走 进 磁 共 振 实 验 室 时 ， 已 习 惯 于 看 到 M RI 机 器 里 有 头 活 猪 。 M a rt e l 是 加 拿 大 蒙 特 利 尔 理 工 学 院 的 纳 米 机 器 人 研 究 员 。 那 时 ， 他 和 同 事 们 已 经 花 了 十 多 年 改 进 能 够在动物体内利用磁共振仪磁场进行操控的微型机器人群。他们希望，有一天这种纳米机器人能作为 载体，将抗癌药物精准输送至体内病灶。那晚，研究团队正在探索重力的影响——通过改变猪在机器 中的体位，测试能否帮助这些纳米机器人穿过动脉的众多分支，抵达肝脏。 团队注视着屏幕，看到纳米机器人逐渐向肝脏移动，并在那儿聚集成一团明亮而闪烁的云。与此前让 猪平躺的实验相比，这次将它们以略微向下的角度放置在M RI机器中，抵达目标部位的机器人数量增 加 了 近 三 倍 。 M a rt e l 表 示 ， 尽 管 这 次 实 验 成 功 只 是 预 示 着 更 多 后 续 工 作 ， 感 觉 仍 然 是 多 年 反 复 试 验 与探索的一个小高潮。 "这些年 ...

Core Insights - Nanotechnology is a core force driving breakthroughs in strategic fields such as green energy, biomedicine, and information technology, significantly enhancing new productive forces [1] - China has become a major contributor and leading industrial nation in global nanotechnology, with the rise of artificial intelligence bringing revolutionary opportunities to the field [1] - The "China Nanotechnology Industry White Paper (2025)" indicates that from 2000 to 2025, the total number of authorized nanotechnology patents globally will exceed 1.078 million, with China holding 464,000 patents, accounting for 43% of the total, maintaining its position as the world leader [1] Industry Developments - Research on new nanoporosity materials and biomimetic open frameworks is being conducted for applications in biomedicine and energy [2] - A breakthrough in oxygen exchange efficiency has been achieved with new materials, allowing approximately 3 liters of oxygen exchange per square meter of membrane per minute, enhancing performance by about 10 times compared to similar international products [2] - This advancement in artificial lung technology is expected to reduce size, lower costs, and significantly decrease the risk of complications, with clinical trials underway and market entry anticipated within two years [2] Market Outlook - The global nanotechnology market is projected to reach $1.5 trillion by the end of 2025, with an increasing number of nanotechnologies transitioning from laboratory research to industrial applications [2] - Nanotechnology is expected to continue making significant impacts across various sectors, including healthcare, clean energy, environmental protection, and electronic information, transforming previously deemed "impossible" innovations into practical solutions for improving people's lives [2]

Core Viewpoint - The article discusses the advancements and future potential of robotics and embodied intelligence, emphasizing the importance of collaboration between humans and machines to enhance various sectors, including healthcare and disaster response [1][10]. Group 1: Event Overview - The 2025 World Robot Conference will be held from August 8 to 12 in Beijing, featuring a main forum and 31 series of activities with 416 experts and representatives sharing insights on new technologies and applications [1]. Group 2: Embodied Intelligence - Embodied intelligence is defined as the ability of robots to not only perform tasks but also to perceive and understand their environment, marking a shift from traditional AI definitions [8]. - The development of embodied intelligence emphasizes the need for robots to adapt to complex environments and possess cognitive abilities [8][9]. Group 3: Technological Advancements - Significant progress has been made in nanorobotics over the past 40 to 50 years, with ongoing research aimed at making robots more intelligent and capable [4][5]. - The integration of bionic elements into robotic systems is highlighted, with a focus on developing distributed autonomous robotic systems that can operate within the human body [6][7]. Group 4: Human-Robot Collaboration - The article stresses the importance of human-robot collaboration, suggesting that robots should not only assist in repetitive tasks but also provide solutions in critical situations [9][10]. - A vision for 2050 is presented, where robots will possess the ability to autonomously identify and solve problems, significantly enhancing their role in society [10][11]. Group 5: Future Prospects - The potential for companion and caregiving robots is discussed, with the expectation that they will be able to support humans throughout their lives, including during emergencies [10][12]. - The concept of "soft robots" is introduced, which combines flexibility and adaptability with traditional robotic capabilities, aiming for a balanced design approach [11][12].