Core Insights - The first National Science Popularization Month in September saw over 500 million participants in various online science activities, with the topic "Millions of IPs Creating Science Popularization" generating over 13.85 billion views, indicating a growing public enthusiasm for cutting-edge science [1][2] - There is a significant mismatch between the increasing public demand for high-quality science exhibits and the slow supply of such resources, highlighting a pressing need for improved science communication and exhibition strategies [1][2][3] Group 1: Public Engagement and Demand - The China Science and Technology Museum's new exhibition "Innovation Foundation: Science Popularization for the People" was extremely popular, with rapid booking slots indicating high public interest [1] - Visitors expressed excitement over interactive exhibits showcasing recent technological advancements, such as wearable electronic fabrics and quantum computing models, emphasizing the public's desire for timely and relevant science education [2][3] Group 2: Supply Challenges and Content Gaps - Many existing science exhibitions lag behind current scientific advancements, leading to public frustration and a perception that science communication is outdated [2][3] - The need for timely updates in science exhibits is critical, as many visitors noted that previous exhibitions often featured outdated content, particularly in fields like AI and biotechnology [2][3] Group 3: Institutional Responses and Innovations - In response to the supply-demand gap, the China Science and Technology Museum has partnered with universities and research institutions to create science laboratories aimed at bridging the gap between laboratory research and public exhibitions [3][4] - New exhibits, such as the "Moon Life Canister," have been developed to provide interactive experiences that educate the public about recent scientific achievements, demonstrating a shift towards more engaging and informative science communication [5][6] Group 4: Recommendations for Improvement - Experts suggest establishing mechanisms to enhance the collaboration between scientific research and public education, including integrating science communication into research planning and evaluation [6][7] - There is a call for better recognition of science communication efforts in academic evaluations, which could incentivize researchers to engage more actively in public science education [7][8] - Funding for scientific research should include provisions for science communication, ensuring that research outcomes are effectively translated into public knowledge [8][9]

Core Points - The first National Science Popularization Month has successfully engaged the public with numerous activities across the country, promoting scientific knowledge and innovation [2][8] - The event showcased various scientific achievements and innovations, including a desktop 4D printer and wearable electronic fabrics, highlighting the integration of technology and education [3][4] - The China Association for Science and Technology (CAST) reported a significant increase in public participation in science activities, with a focus on expanding the reach and impact of science education [8][9] Group 1: Science Popularization Activities - The National Science Popularization Month featured over 100,000 activities nationwide, encouraging participation from all age groups [2] - Events included interactive exhibits at the China Science and Technology Museum, where children could engage with scientific concepts through hands-on experiences [3][5] - The "Science Night" event combined science and art, offering immersive experiences that sparked interest in scientific exploration [4] Group 2: Technological Innovations - The introduction of a desktop 4D printer at the China Science and Technology Museum allowed visitors to see the transformation of materials into soft robots, demonstrating advanced manufacturing techniques [3] - Wearable electronic fabrics showcased the potential for smart clothing, capable of lighting up and performing various functions, marking a significant advancement in textile technology [4] Group 3: Educational Initiatives - Educational programs during the Science Popularization Month included activities like designing parachutes for Mars landings, blending exploration with practical learning [7] - The Beijing Science Center organized a series of events, including a science carnival and collaborative performances between scientists and artists, to enhance public engagement with science [8] Group 4: Achievements in Science Education - The proportion of Chinese citizens with scientific literacy reached 15.37% in 2024, surpassing the 2025 target, indicating a growing public understanding of science [8] - CAST plans to expand science museum coverage to rural areas and enhance the quality of original science resources, aiming to make scientific knowledge more accessible [9]

每经北京9月5日电（记者周逸斐）今年9月是首个全国科普月。9月5日，中国科协举办科普月媒体开放日活动。 《每日经济新闻》记者从活动现场获悉，中国科技馆近日推出"科创筑基·科普惠民"创新成果展，集中呈现了来自30多个科研团队的智慧结晶以及中国科技 馆联合多家科研院所、高校与科技企业共建科普实验室的科普成果，以可观看、可倾听、可互动的方式，推出了一批源自最新科技成果并首次亮相的"首台 套"创新展品。 "这些可以抓取脆弱、易变形物品的软体灵巧手，是由智能材料通过4D打印制造的，我们可以根据抓取对象的特点优化设计出不同的灵巧手构型。通过改变 磁场的方向和分布，使软体机器人翩翩起舞，它们就像有了生命一样。随着技术发展，磁控4D打印软体机器人技术的应用场景将进一步扩展至具身智能、 低空经济、可穿戴康复设备等领域，推动'活'的机器人融入人类生产生活。"李振坤介绍。 （文章来源：每日经济新闻） 北京交通大学副教授李振坤在现场向《每日经济新闻》记者讲解，4D打印是一项前沿颠覆性技术，它在3D打印的"空间维度"上，加入了智能材料的响应"维 度"，可以制作可变形的智能结构以及刚度可变的结构。 为了让这一前沿技术触手可及，李振坤及其 ...

Group 1 - The newly revised "Law of Popularization of Science and Technology of the People's Republic of China" designates September as the National Science Popularization Month, with this year's theme being "Technology Changes Life, Innovation Wins the Future" [1] - The main event of the National Science Popularization Month is held at the China Science and Technology Museum and the National Science Communication Center, organized by the China Association for Science and Technology in collaboration with 34 member units [1] Group 2 - The "Innovation Achievements Exhibition" at the China Science and Technology Museum showcases over 30 research teams' innovations, featuring interactive displays of the first sets of technology achievements [5][8] - Wearable electronic fabrics are highlighted, which integrate functions such as power generation, lighting, energy storage, sensing, computing, and communication into soft fibers, transforming clothing into smart products [8] Group 3 - The exhibition "Chinese Scientists in the Anti-Japanese War" commemorates the 80th anniversary of the victory in the Anti-Japanese War, showcasing the contributions of scientists during critical historical moments [10] - The exhibition is divided into three parts: serving the battlefield, ensuring national livelihood, and preserving academic heritage, illustrating how scientists rapidly applied knowledge to meet urgent wartime needs [11] Group 4 - Notable contributions include the establishment of a machine factory by Shen Hong, which provided essential machinery to support the war effort, producing 134 sets of various machines for military use [11] - The exhibition also features the work of metallurgist Ye Zhupai, who developed non-ferrous metal resources, producing 500 tons of refined copper annually for munitions during the war [13]