2025年11月21日，"中国宠物产业科研创新及成果转化大会启动仪式暨前沿技术研讨会"在广州中国美都 成功举行。本次大会在广东省宠物行业协会大健康分会指导下，由CPCRA宠物产业发展大会与香港纳 米及先进材料研发院（NAMI）联合主办。 前沿科技体验开启序幕，两大重要成果落地 大会首设宠物科技体验区，展示斥菌塑料、纳米纤维检测试剂、长效芳香系统等创新技术，让与会嘉宾 亲身体验科技对宠物行业的变革力量。 广东省宠物行业协会荣誉会长麦春华、常务副会长兼大健康分会会长王磊、香港纳米及先进材料研发院 保健部门技术总监陈咏敏博士分别致辞，从行业趋势、政策导向与技术突破多维度确立"创新驱动、合 作共赢"的大会基调。 此次大会的成功举办，为建立常态化产业交流机制奠定基础，标志着中国宠物产业向高质量、可持续发 展迈出坚实一步。 采写：南都、N视频记者 蔡肇宇 圆桌深度对话，共探行业发展之路 大会当中，NAMI专家团队带来五场主题演讲，系统展示纳米技术在宠物健康、环境及诊断领域的应用 前景。圆桌对话环节以"宠物鲜食与健康技术融合创新"为主题，多位博士及行业专家就技术难点、市场 痛点及跨界融合路径展开深度探讨。 在整个会议进程中 ...

美股反弹了，中概股也涨了，A股昨天却刚经历了一场近半年来的最大暴跌。 这个周末，无数投资者的心都悬着，一个问题挥之不去：下周，我们的大A股，能跟上吗？ 就在昨晚，美股市场终于喘了口气。 道指涨了1.08%，标普500跟涨0.98%，纳斯达克也收了0.88%的红盘。 别看涨幅不大，但这小小的反弹，对已经连续跌了三周的市场来说，就像在沙漠里看到了绿洲。 | 航富 | 中概股 | | (Ai) [7 1 | | --- | --- | --- | --- | | | 669.69 0.84% | | | | 成份股 | | Frane | | | 名称 | 最新, | 涨幅↓ | 流 | | 沃氧医疗 | 4.320 | 12.50% | 0.48 | | WOK | | | | | 河南省 | 14.520 | 8.68% | 1.160 | | TRIP | | | | | 网易有道 | 9.600 | 7.14% | 0.641 | | DAO | | | | | 荒氧 | 3.040 | 7.04% | 0.200 | | SY | | | | | 高速 | 2.540 | 4.96% | 0.12 | | ...

【文/观察者网 齐倩】 香港英文媒体《南华早报》11月19日刊文称，瑞士《前沿》杂志首席执行官弗雷德·芬特尔认为，中国 在科研产出和某些前沿领域正超越美国，硅谷和美国顶尖大学在塑造科学未来方面的主导地位可能正在 终结。《前沿》杂志是全球领先学术出版商之一。 芬特近期在一次采访中表示："根据全球最大互联研究数据库Digital Science的数据，2024年中国研究人 员发表了110万篇论文，美国为88万篇，中美科研产出差距正在扩大。" 他提到，尽管美国传统上被视为医学研究领导者，但近期的出版趋势显示不同景象。 数据显示，2023年，中国在医学领域论文占比达40%，2024年进一步升至略超50%。在能源研究领域， 中国已是全球领导者，占该领域论文约35%，且影响力显著。 "毫无疑问，中国现在是科学出版和产出的领导者，"芬特称，"专利等其他指标进一步表明，中国不仅 在数量上，还在高质量科研产出上超越了美国。" 芬特提到，中国的科学崛起正成为其他国家的榜样，尤其是越南。他说："我们最近会见了越南代表 团，他们有雄心勃勃的计划，要大幅增加研发投资，希望复制中国过去15到20年所获得的成果。" 弗雷德·芬特尔近期接受 ...

无机抗菌剂是一类通过物理吸附或离子交换等方法，将具有抗菌能力的金属离子或光催化材料固定在无机多孔材料表面制成的抗菌剂。常见 的无机抗菌剂包括银离子抗菌剂和金属氧化物光催化型抗菌剂。无机抗菌剂具有抗菌谱广、不会产生耐药性、毒性低、耐热性好等优点，且 随着纳米技术的发展，纳米无机抗菌剂的抗菌效果显著优于传统无机抗菌剂。 2024 年中国无机抗菌剂市场规模达到了 92.30 百万美元，预计 2031 年将达到 153.67 百万美元， 2025-2031 年复合增长率（ CAGR ）为 6.50% 。 2024 年，中国无机抗菌剂市场销量 4,287.0 吨，预计 2031 年将达到 6,403.0 吨， 2025-2031 年复合增长率（ CAGR ）为 5.65% 。 表 1： 不同类型抗菌剂比较 | 种类 | 无机抗菌剂 | | 有机抗菌剂 | 天然 抗菌剂 | | --- | --- | --- | --- | --- | | 示例 | 银、钛、锌、铜等金属及其离子 含无机载体 ) | ( | 香草醛或乙基香草醛类化合物、酰基苯胺类、 咪唑类、噻唑类、异噻唑酮衍生物、季铵盐 | 甲壳素、芥末、蓖麻油、山 葵 ...

Core Insights - The global agriculture sector is at a critical juncture, facing unprecedented pressures from climate change, resource degradation, demographic shifts, and geopolitical instability, necessitating a systemic transformation led by "deep technology" [1] - Deep technology, which encompasses advanced scientific and engineering innovations, is expected to revolutionize the agricultural industry and address significant global challenges over the next decade [1] Group 1: Deep Technology in Agriculture - Deep technologies such as Generative AI, computer vision, edge IoT, satellite remote sensing, robotics, CRISPR gene editing, and nanotechnology are identified as key drivers for transforming global agriculture into a more resilient, sustainable, and efficient system [1] - The World Economic Forum's "AI in Agriculture Innovation Initiative" released a report highlighting the potential of these technologies to reshape agricultural practices [1] Group 2: Generative AI - Generative AI is leveraging advancements in large language models and the increasing availability of agricultural data, providing personalized crop management advice and localized farming plans [2] - Applications include acting as an "AI advisor" for farmers, assisting governments in macro crop planning, and accelerating the development of new crop varieties through gene editing [2] - The lack of high-quality training data, particularly for localized scenarios, remains a significant barrier to the widespread adoption of Generative AI in agriculture [2] Group 3: Computer Vision - Computer vision enables machines to interpret images and videos, generating decision-making suggestions and reducing reliance on human analysis [3] - In agriculture, it is used for precise identification of crop diseases, weeds, and pests, as well as real-time monitoring of crop growth [3] - The variability of field conditions and plant growth stages poses challenges for the large-scale application of computer vision technology in agriculture [3] Group 4: Edge IoT - Edge IoT processes data at the device level or nearby network edge, allowing for low-latency real-time responses and accelerating autonomous decision-making [4] - It is particularly beneficial in rural areas with weak network coverage, facilitating applications such as automated irrigation and early disease warning systems [4] - High equipment costs and interoperability issues between different edge systems are current challenges in this field [4] Group 5: Satellite Remote Sensing - Satellite remote sensing technology is increasingly applied in agriculture due to improved spatial and spectral resolution and higher data collection frequency [6] - It allows for efficient monitoring of large geographic areas at a low cost, assessing crop health and predicting pest outbreaks [6] - The precision of satellite remote sensing needs improvement when dealing with small-scale, dispersed farmland or multi-crop rotations [7] Group 6: Robotics - Robotics technology automates labor-intensive or complex tasks in agriculture, integrating perception and decision-making capabilities [8] - With advancements in AI perception and cloud-edge collaboration, agricultural robots can perform tasks such as precision planting and automated harvesting [8] - High costs of these technologies present challenges for adoption in countries with abundant low-wage labor [9] Group 7: CRISPR Technology - CRISPR gene editing is a key force in agricultural development, allowing precise modifications to DNA to enhance desirable traits in crops [10] - It aims to accelerate the breeding of crops that are drought-resistant, pest-resistant, and nutritionally enhanced [10] - Regulatory hurdles and public acceptance issues are significant challenges to the commercialization of CRISPR technology [11] Group 8: Nanotechnology - Nanotechnology shows potential in agriculture for pest control, nutrient management, and controlled release of agricultural inputs [12] - The lack of long-term data on environmental and health impacts poses challenges for the widespread application of nanotechnology [12] - The report suggests that governments and institutions should support promising agricultural deep tech projects through policy coordination, funding, talent development, and infrastructure building [12]

Core Insights - FavoTech (688371) has signed a strategic cooperation agreement with Wuxi Langyi New Materials Co., Ltd. to jointly launch the FavoMedNano fluorine-free nano-coating solution, designed for efficient liquid barrier and bacterial protection in the medical and sports fabric sectors [1][2] Company Overview - Langyi New Materials specializes in producing base fabrics and protective products for the medical and sports industries, with a fully automated production system from cotton to finished products, serving leading companies domestically and internationally [1] - FavoTech is a leader in the nano-protection field, with core technologies applied across various sectors including consumer electronics, automotive electronics, and industrial control, successfully utilized in products from top enterprises [1] Product Features - The FavoMedNano solution creates a transparent film layer on fabric surfaces, with a thickness measured in nanometers, allowing water droplets, blood, or sweat to slide off quickly without adhering [1] - The solution forms an invisible barrier on products like band-aids, maintaining a rolling angle stability between 14-16° and a water contact angle of up to 130°, effectively blocking bacteria from entering wounds while ensuring breathability and comfort [2] - The film layer is made from halogen-free and fluorine-free eco-friendly materials, certified for environmental and biocompatibility standards, balancing high protection with safety [2] Market Potential - Market research predicts that the global medical protective textile market will exceed $40 billion by 2027, while the functional sports fabric sector is expected to grow at a compound annual growth rate of 12% [2] - The collaboration aims to combine the technological and industrial strengths of both companies to provide more environmentally friendly, advanced, and superior solutions for functional textiles in the medical and sports industries [2] Strategic Vision - FavoTech's chairman emphasized the company's commitment to redefining product boundaries through nano-technology across various sectors, including medical and sports fields, and aims to enhance the "technology + scenario" dual-driven strategy for broader applications [2]

QYR 产品定义及统计范围 预分散橡胶助剂母胶粒是指将橡胶加工助剂预先分散在橡胶基体中制成的颗粒状产品。它能够提高加工性能、改善产品 质量、简化生产流程，广泛应用于轮胎、胶管、胶鞋等橡胶制品中。预分散橡胶助剂是以聚合物（一般是 EPDM 、 SBR 、 NBR 、 EVA ）为载体，加橡胶助剂和软化剂，通过特殊工艺将传统橡胶助剂预分散到聚合物中，得到一定浓度的均 匀预分散体（挤出造粒）。预分散橡胶助剂是传统橡胶助剂的升级换代品，具有无粉尘、易分散、适合自动称量和自动 连续低温混炼、提高混炼效率、储存稳定好等优点，日益受到业内重视，已在橡胶制品中大量应用。 橡胶助剂母胶粒是快速发展的行业，但是市场集中度较低 橡胶助剂预分散上个世纪40年代就已经有提出，至80年代才开始有工业化生产，90年代中期开始大批量工业化生产，至 2003年以后才慢慢被大家所认识，2008年以后国内工厂开始陆续上马并逐渐增多。据中国橡胶工业协会橡胶助剂专业委 员会数据，可统计的会员单位十余家的产量目前超过8万吨，但是根据QYResearch的调查，目前中国橡胶助剂母胶粒生 产企业超过数十家，产能较为分散。 橡胶助剂母胶粒发展符合绿色化学的发 ...

Core Insights - The article discusses the significant transformations occurring in the global electronic materials industry, emphasizing the acceleration of technological iterations and the deepening of supply chain restructuring [4][8]. Group 1: Industry Events - The 2025 Advanced Electronic Materials Industry Development Forum was held in Shanghai, focusing on topics such as semiconductor material localization, packaging process optimization, and AI-driven market trends, with around 130 representatives from various sectors attending [2]. - The 2025 Heterogeneous Integration Frontier Forum is scheduled for November 17-19, 2025, in Ningbo, organized by TrendBank, highlighting the focus on advanced packaging technology [29]. Group 2: Key Industry Leaders' Insights - Shanghai Chemical Zone's leadership emphasized the need for continuous breakthroughs in industrial ecology and the importance of focusing on key links to enhance the electronic materials industry's high-quality development [4]. - The Shanghai Electronic Materials Association aims to act as a bridge between government and enterprises, fostering innovation and collaboration within the industry [6]. Group 3: Market Trends and Challenges - The Chinese semiconductor market accounts for approximately one-third of the global market share, with ongoing growth despite challenges such as insufficient capacity and significant gaps in advanced processes [8]. - Emerging technologies, including nanotechnology and new semiconductor materials like graphene and wide bandgap semiconductors, are expected to drive innovation and overcome limitations of traditional silicon-based materials [9]. Group 4: Technological Innovations - AI and automation are revolutionizing materials science, significantly accelerating the discovery of new materials through high-throughput synthesis techniques [11]. - The development of high-resolution photoresists is facing challenges, with research expanding into new paradigms such as AI-based material design and molecular dynamics simulations [15][19]. Group 5: Strategic Initiatives - The Shanghai Electronic Chemical Products Zone, established in December 2020, aims to create a comprehensive ecosystem for electronic materials, with plans to achieve over 90% localization of key materials in the integrated circuit field by 2030 [24].

Core Viewpoint - The stock of Shuangle Co., Ltd. (301036) closed at 34.81 yuan on November 3, 2025, marking a 2.14% increase with a turnover rate of 3.68% and a trading volume of 25,900 shares, resulting in a transaction value of 89.67 million yuan [1]. Group 1: Company Performance - Shuangle Co., Ltd. experienced a stock price increase of 2.14% on November 3, 2025, closing at 34.81 yuan [1]. - The trading volume for the day was 25,900 shares, with a total transaction value of 89.67 million yuan [1]. Group 2: Investor Relations - The company is currently collaborating with downstream partners on the development of panel-use pigments, indicating a focus on high-tech applications involving nanotechnology and surface chemistry [2]. - The company has not announced any plans to implement stock buybacks as suggested by the China Securities Regulatory Commission, stating that any such plans will be disclosed in accordance with legal regulations [2]. - The main business of the company is focused on phthalocyanine series pigments, clarifying that it does not produce biphenylamine yellow pigments [2]. Group 3: Market Activity - On November 3, 2025, there was a net inflow of 629.08 million yuan from major funds, indicating increased short-term interest in the stock [3]. - Retail investors showed a net outflow of 1,132.82 million yuan, while speculative funds had a net inflow of 503.74 million yuan [3].

最新研究：纳米技术研发新型抗蛇毒血清在小鼠实验中展现治疗前景 中新网北京11月3日电 (记者 孙自法)国际知名学术期刊《自然》最新发表一篇生物学论文称，利用纳米 技术研发、能抵抗某些非洲最致命毒蛇类(包括曼巴蛇、眼镜蛇和唾蛇)的一种实验性重组抗蛇毒血清， 已在小鼠实验中展现出治疗前景。 莫桑比克射毒眼镜蛇(图片来自Wolfgang Wüster)。施普林格·自然 供图 这项新型抗蛇毒血清的研发成果，或为蛇咬伤受害者开发出更安全和有效的治疗方法。 与东部绿曼巴蛇的近距离对视(图片来自Wolfgang Wüster)。施普林格·自然 供图 在本项研究中，论文共同通讯作者、丹麦技术大学Andreas H. Laustsen和同事及合作者一起，通过组合 名为纳米抗体的工程改造蛋白，创造出一种新型抗蛇毒血清，这些纳米抗体能靶向蛇毒中发现的关键毒 素。在用眼镜蛇、曼巴蛇和唾蛇等18种非洲蛇的毒液给一只羊驼和一只美洲驼进行免疫接种后，他们鉴 定出这些纳米抗体。在小鼠实验中，这种抗蛇毒血清能防止其中17种蛇的蛇咬伤导致的死亡，并缓解一 些最有害毒液导致的组织损伤。 论文作者指出，相比现有的一种商业抗蛇毒血清，这种基于纳米抗体 ...