中天科盛曾是一家产能落后、污染严重、濒临淘汰的家族企业，如今已蜕变为年产值3.3亿元的科技型 新材料企业，其自主研发的"脂肪族聚氨酯弹性体原材料"填补国内技术空白，市占率达到20%。 中天科盛的企业成长轨迹，恰是上海金山区用十年时间完成产业涅槃的微观缩影。当全球化工产业周期 性调整与环保压力双重冲击袭来，这座曾因"靠石化、吃石化"闻名的老工业区，通过系统性重构产业基 因，在腾笼换鸟中实现了从化工之城到科创绿洲的跨越。 智通财经记者 | 杨舒鸿吉 智通财经编辑 | 庄键 在碳谷绿湾产业园，上海甘田光学材料也通过自主研发的光致变色材料及其生产的变色眼镜片，占据 80%的国内市场，成为行业内的隐形冠军。 该公司专注于基础材料开发，主要产品为光变色浓缩液、光变色树脂，通过持续研发创新，开辟了变色 镜片、变色玻璃胶片及3C应用领域的技术高地，推动化工产业往智能绿色节能材料方向发展。 上海甘田光学材料总经理王卓告诉智通财经，作为一家从华东理工成果转化而来的科创企业，能明显感 受到金山区的科创浓度在大幅提升。 11月13日，中天科盛总经理陈盛告诉智通财经记者，"转型初期确实面临诸多挑战，但我们始终坚持专 心搞科技创新，持续 ...

Core Insights - Smart materials have emerged as a cutting-edge direction in the new materials field, with the potential to profoundly change human society through deep integration with artificial intelligence [1][6] Summary by Sections Definition and Characteristics of Smart Materials - Smart materials are defined as materials that can sense environmental changes, make judgments, and execute commands, distinguishing them from traditional materials [2] - Key characteristics include the ability to actively change shape, hardness, color, and function in response to external stimuli, integrating sensing, driving, and information processing [2][3] Types and Applications of Smart Materials - At least twenty types of smart materials have been identified, including: - Piezoelectric materials for energy conversion and vibration control - Shape memory alloys used in medical devices like stents - Magnetostrictive materials for ultrasound transducers - Electrorheological and magnetorheological materials for adaptive dampers in vehicles - Self-healing materials for automotive applications [3][4][5] Integration with Artificial Intelligence - The concept of "wise materials" has been introduced, where smart materials are enhanced with AI capabilities, allowing them to make autonomous decisions and adapt to their environment [6] - Examples of applications include AI-controlled prosthetics and smart lenses that adjust focus based on eye movement [6] Market Potential and Future Outlook - The global smart materials market is projected to reach up to $250 billion by 2030, driven by advancements in AI, brain science, and biotechnology [7] - In various sectors, smart materials are expected to lead to innovations such as personalized medical treatments, green energy solutions, and enhanced safety systems [7] Current Status and Challenges - While China leads in basic research and certain advanced fields, there remains a gap in the transformation of consumer products and the establishment of an industrial ecosystem compared to developed countries [8] - Emphasis is placed on the need for interdisciplinary collaboration to accelerate product development and application [8]

以下文章来源于化育新材 ，作者胡广君 化育新材 . 本公众号是北化新材料校友会打造的新材料产业界高水平专业化沟通交流开放共享的公益性平台，旨在 服务校友、校友之友、校友企业和新材料产业。 "化育新材"：1）校训"宏德博学，化育天工"的外延； 2）变化孕育新材料；3）化学带来变化，有变化有创新。 AI引领的第四次工业革命下化工/材料企业面临的机遇与挑战 作者：盛虹先进材料研究院 胡广君 摘要： AI驱动的第四次工业革命为化工/材料行业带来双重机遇与挑战。2024年诺贝尔奖肯定AI技术突破，推动其 进入L2-L3级阶段（智慧推理至行动执行）。AI具身化（机器人、AR设备等）催生百亿级新材料需求，如轻量化 复合材料和柔性传感器，革新"4D任务"（危险、枯燥、脏污、简易）场景。AI还重塑生产优化、设备预测维护等 七大领域，助力降本增效。但技术瓶颈、数据孤岛和高成本仍待解决。中国凭借丰富场景优势，有望在垂直领域 领先。企业需布局试点、数据安全及AI材料研发，构建生态，从"应用者"迈向"引领者"。 一、以人工智能（Artificial Intelligence, AI）为核心驱动力的第四次工业革命正在发生 2024年诺贝 ...