在成果转化端，重庆提出"强化'众创空间—孵化器—加速器'创新创业综合服务体系，布局建设概念验 证、中试验证平台，打造高能聚合的科技成果转化枢纽"。产业集群化发展是创新成果落地的关键抓 手。浙江提出，深入实施先进制造业集群培育工程；陕西以 "链长制"为抓手，重点打造现代能源、先 进制造、战略性新兴产业等万亿级产业集群。 聚焦人工智能、量子科技、生物制造等前沿领域，多地前瞻布局一批重大重点项目。广东提出"将'人工 智能+机器人'打造成为高技术、高成长、大体量的产业集群，锻造更多万亿元级、千亿元级产业集 群"；安徽提出"建强量子科技、聚变能源、深空探测三大高地，谋划打造人工智能、生命科学等新的高 地"。 依托资源禀赋，多地瞄准国家战略需求，力争形成差异化竞争新优势。内蒙古提出打造"全国最大的稀 土新材料基地和全球领先的稀土应用基地"；贵州提出"以智算为重点发展算力产业，深入实施'东数西 算'工程" ；海南持续加强"种业、深海、航天等优势特色领域创新策源地功能"。 着力构建从基础研究、技术攻关到成果转化，再到产业集聚的全链条发展体系，已成为各地催生新质生 产力、推动产业链高质量发展的鲜明共识—— 基础研究是科技创新的 ...

Group 1 - The core viewpoint emphasizes the importance of advancing future industries such as quantum technology, biomanufacturing, hydrogen energy, nuclear fusion energy, brain-computer interfaces, embodied intelligence, and sixth-generation mobile communication as new economic growth points [1][7] - The "14th Five-Year" period has seen significant achievements in China's technological innovation, with major projects implemented in key industries to support high-quality development [3][5] - China is accelerating its technological layout in frontier fields, achieving breakthroughs in artificial intelligence, biomanufacturing, quantum information, and hydrogen energy storage, indicating a shift towards new advantageous industries [5][7] Group 2 - The "15th Five-Year" planning suggestions prioritize building a modern industrial system and strengthening the foundation of the real economy, with emerging and future industries poised for significant growth [7] - The next five years are projected to be a period of high breakthroughs and development in Chinese technology, with a focus on increasing high-quality technological supply and implementing major national projects [7]

Core Viewpoint - The article discusses the innovative strategies for enhancing CO2-to-lipid bioconversion in microalgae, specifically focusing on the oleaginous Coccomyxa subellipsoidea, to address the challenges of biomass and lipid accumulation for sustainable biodiesel production [1][2]. Summary by Sections Research Findings - The study achieved a biomass concentration of 10.00 g/L, a carbon fixation rate of 1.42 g/L/d, a lipid content of 51.84% dry weight, and a lipid yield of 401.75 mg/L/d under high light intensity (300 μmol/m²/s) [2]. - Chlorophyll fluorescence analysis indicated that high light intensity initially suppressed photosynthetic activity but later activated non-photochemical quenching (NPQ), enhancing the algae's high light tolerance [4]. - Metabolomics analysis showed that high light conditions upregulated protein and free amino acid degradation, facilitating the recycling of nitrogen and carbon resources, which maintained basic cellular metabolism and directed carbon flow towards acetyl-CoA for lipid synthesis [5]. Implications for Biofuel Production - The fatty acid methyl esters produced from this algal strain meet the biodiesel reference standards of China, the USA, and the EU, providing a significant theoretical basis and application case for the development of carbon neutrality and biofuel production technologies [6].