大会地点 | 杭州市 大会规模 | 1000人 主办单位 | synbio深波 承办单位 | 享融智云 大会介绍 0 1 大会时间 | 2026年3月31日-4月1日 在全球推进绿色转型与"双碳"目标的战略背景下，生物基化学品与材料作为生物制造产业的核心支 柱，凭借原料可再生、全生命周期低碳环保等核心优势，正加速替代传统石油基产品，在包装、纺 织、汽车等领域展现出广阔应用前景，成为全球产业绿色转型的关键赛道。 我国高度重视该领域发展，将生物基新材料列为关键战略材料，多项产业扶持政策持续落地。然 而，产业仍面临包括综合成本竞争力、原料供应链稳定、产品性能优化及终端市场接受度等关键问 题。 基于此， 2026年3月31日-4月1日 ，"第五届中国合成生物学及生物制造大会"将在杭州举办，其中设 置 【 生物基化学品与材料专场】 ，旨在汇聚产学研用多方智慧，破解产业发展难题，助力生物基 化学品与材料产业高质量发展。 会议路演报名（审核制） 请添加下方微信，备注 "报名路演" 商务合作 0 4 生物基大宗化学品的绿色生物制造 基于合成生物技术的分子和材料创新 生物基平台化合物的规模化生产与高值化利用 呋喃生物基新材料技 ...

Core Viewpoint - The Hefei Municipal Committee emphasizes the development of future industries with a focus on "quantum intelligence" and aims to drive innovation in sectors with technological advantages and development foundations [1] Group 1: Quantum Technology Industry - The plan includes promoting breakthroughs and applications in quantum communication, quantum computing, and quantum precision measurement [1] - There is a focus on accelerating the research and industrialization of key materials, devices, and equipment [1] - The initiative aims to expand "quantum+" demonstration projects in government, finance, energy, and meteorology sectors [1] Group 2: Nuclear Fusion and Hydrogen Energy Industry - The development of compact fusion energy experimental devices is highlighted as a key infrastructure project [1] - The plan aims to accelerate the development of superconducting materials, equipment, and smart sensors [1] - There is an emphasis on advancing the application of hydrogen and ammonia energy technologies and laying out advanced nuclear energy technologies like small reactors [1] Group 3: Biomanufacturing Industry - The focus is on biobased chemicals and materials, new food products, bio-agriculture, and non-food biomass raw materials [1] - The initiative aims to expand large-scale applications in these areas [1] Group 4: Embodied Intelligence Industry - The plan promotes the integrated development of intelligent decision-making systems, high-precision control systems, and innovative structural design [1] - It aims to construct a full-chain innovation ecosystem encompassing precision processing, data training, evaluation, and competitive testing [1] Group 5: Emerging Technologies - The strategy includes tracking and laying out plans in niche areas such as brain-computer interfaces, sixth-generation mobile communication, and deep space and deep sea exploration [1] - The goal is to promote more technological research and industrialization to achieve "parallel running" and "leading" positions in these fields [1]

Core Viewpoint - Biomanufacturing is recognized as a crucial driver of the fourth industrial revolution, with significant potential for economic growth and innovation in the manufacturing sector [1][3]. Group 1: Industry Development and Achievements - Since the start of the 14th Five-Year Plan, China's biomanufacturing industry has grown to a total scale of 1.1 trillion yuan, with bioproducts accounting for over 70% of global production [2]. - The production value of food and pharmaceutical biomanufacturing segments has each exceeded 400 billion yuan, showcasing a strong competitive advantage in traditional bioproducts like vitamins and antibiotics [2]. - China has established numerous national key laboratories and innovation platforms, contributing to over 20% of global research papers and patent applications in the biomanufacturing field [2]. Group 2: Future Economic Potential - Predictions indicate that by 2050, the biomanufacturing sector could generate an economic value of 30 trillion dollars, representing one-third of global manufacturing [3]. - The Chongqing government plans to implement various measures to accelerate the development of the biomanufacturing industry, including innovation actions and the establishment of verification platforms [3]. Group 3: Technological Challenges and Needs - Despite the current industry scale, there is a significant gap in technological supply, with a need for thousands of mature technologies to support a trillion-yuan industry [4]. - Experts emphasize the necessity of enhancing national strategic technological capabilities to provide a robust foundation for the biomanufacturing sector [4][5]. Group 4: Innovation and AI Integration - The integration of artificial intelligence with biomanufacturing is emerging as a trend, potentially enhancing research efficiency and process optimization [5][6]. - There is a pressing need to upgrade the research paradigm in biomanufacturing to leverage big data and AI, addressing challenges in data quality and model construction [6][7]. Group 5: Strategic Recommendations - The industry is encouraged to focus on original innovation and tackle engineering bottlenecks, fostering collaboration between academia and industry to drive technological advancements [7]. - The Ministry of Industry and Information Technology plans to release a development plan for biomanufacturing, outlining key products and AI applications to support the sector's growth [7].

Core Viewpoint - The article emphasizes the development of non-grain biomass resources for energy and bio-based materials, highlighting the upcoming NFUCon 2025 forum aimed at discussing commercialization paths, technological challenges, and opportunities in the biomass industry [2]. Group 1: Forum Overview - The NFUCon 2025 will be held from November 27-29, 2025, in Hangzhou, Zhejiang, organized by DT New Materials and the National Key Laboratory of Bio-based Transportation Fuels [2][3]. - The forum will gather industry representatives and experts to explore key areas such as biomass green pretreatment, non-grain sugars, bio-based chemicals and materials, and biomass energy [2][4]. Group 2: Forum Agenda - The forum will feature a series of specialized sessions, including: - Session 1: Biomass Green Pretreatment focusing on steam explosion technology and efficient pretreatment methods [6]. - Session 2: Non-grain sugars and their industrial applications [7]. - Session 3: Bio-based chemicals and their production processes [8]. - Session 4: Non-grain bio-based materials and their commercialization [8]. Group 3: Special Activities - A special activity titled "Technology Achievement Display and Matching" will be held to promote innovation and commercialization in the biomass sector, showcasing 50 innovative projects with commercial potential [9]. Group 4: Industry Participation - The forum will attract various participants, including: - Production companies involved in biomass energy and chemicals, cellulose materials, and green composite materials [14]. - Academic institutions focusing on biomass chemistry, advanced catalysis, and resource utilization [14]. - Equipment and solution providers for biomass processing and analysis [14].

Core Viewpoint - The article emphasizes the development of non-grain biomass resources for energy and material systems, highlighting the upcoming NFUCon 2025 forum aimed at discussing commercialization paths and technological advancements in the biomass industry [2]. Group 1: Forum Overview - The NFUCon 2025 forum will take place from November 27 to 29, 2025, in Hangzhou, Zhejiang, organized by DT New Materials and the National Key Laboratory of Biomass Transportation Fuel Technology [2][3]. - The forum will gather industry representatives and experts to explore key areas such as biomass green pretreatment, non-grain sugars, biomass-based chemicals and materials, and biomass energy [2][4]. Group 2: Forum Agenda - The forum will feature specialized sessions on non-grain biomass chemicals and materials, including topics like biomass green pretreatment, non-grain sugars, and biomass-based chemicals [5][6]. - Another major theme will focus on biomass energy, covering areas such as biomass methanol, fuel ethanol, biogas, and sustainable aviation fuel (SAF) [7][9]. Group 3: Supporting Organizations - The forum is supported by various institutions, including Zhejiang University and its associated research institutes, which contribute expertise in polymer science, food science, and biomass materials [3][9]. - The event will also involve participation from production enterprises, research institutions, and solution providers in the biomass sector [9][10]. Group 4: Innovation and Collaboration - The forum will include a special activity for showcasing and connecting innovative projects in the biomass utilization field, aiming to promote commercialization and industry collaboration [7][8]. - A total of 50 innovative projects with commercial potential will be selected for display and networking during the event [7].

Core Viewpoint - The successful trial production of Dongyue Chemical's 200,000 tons/year mixed waste plastic resource utilization project has garnered significant attention in the global waste plastic recycling industry, marking a notable advancement in the green chemical industry chain from waste plastic to high-end materials [1][2]. Group 1: Project Significance - The project has a large scale, processing 200,000 tons of waste plastic annually, establishing a replicable and innovative green chemical industry chain [2]. - The project utilizes a "one-step" deep catalytic cracking technology (CPDCC), significantly improving yield compared to traditional two-step methods [2]. Group 2: Industry Trends - High polymer recycling has become a leading trend in the chemical industry, with major companies in China, such as Sinopec and Wanhua Chemical, actively investing in this area [3][4]. - Internationally, Japanese chemical giants are also focusing on high polymer recycling, with significant investments in bio-based chemicals and materials [5][6]. Group 3: International Developments - Mitsubishi Chemical has completed a waste plastic chemical recycling facility in Japan, with an annual capacity of 20,000 tons, utilizing supercritical water chemical recycling technology [6]. - Other Japanese companies, such as Ube and Toray, are also making strides in recycling initiatives, including the recovery of nylon fibers from discarded fishing nets and the establishment of a committee for efficient dismantling of end-of-life vehicles [8][10]. Group 4: Technological Innovations - The article highlights the advancements in chemical recycling technologies, particularly the supercritical water thermal cracking method, which is noted for its high efficiency and lower carbon emissions compared to traditional pyrolysis methods [19]. - Major global players, including BASF and ExxonMobil, are also involved in high polymer recycling, indicating a broad industry shift towards sustainable practices [20].