Core Viewpoint - China's technology achievement transformation rate has improved from 25% in 2010 to 35% in 2023, but it still lags behind developed countries. The gap between laboratory samples and commercial products is referred to as the "valley of death," which new professional groups and technology service institutions in Shanghai are attempting to bridge [3][5]. Group 1: Technology Transfer Institutions - Specialized technology transfer institutions are key players in promoting the transformation of scientific achievements and facilitating the market-oriented allocation of technological elements. Traditional institutions face challenges due to weak professional capabilities and single income sources [5]. - Shanghai is fostering a diverse range of service entities, including technology trading venues and functional platforms for technology achievement transformation, to innovate models such as "incubation-investment combination" and "service in exchange for equity" [5][8]. - New service institutions in Shanghai have evolved from simple matchmaking roles to becoming "scientist partners," engaging in innovation discovery, value co-creation, and resource integration throughout the entire process of scientific achievement transformation [5][6]. Group 2: Case Studies and Achievements - The case of the natural product synthesis biotechnology project illustrates the importance of professional intervention. Despite having renowned academicians as founders, the project struggled with commercialization until a dedicated team took over operational responsibilities, leading to significant funding and infrastructure development [6][7]. - Since its establishment, the technology transfer company has facilitated over 300 projects across various fields, achieving a total technology transaction amount of nearly 2 billion yuan and cumulative market financing exceeding 2.6 billion yuan [6]. Group 3: Evolving Business Models - The involvement of specialized technology transfer institutions is transforming Shanghai's technology service industry from a reliance on transaction income and government subsidies to a focus on value-driven technology investment banking models [8]. - A comprehensive service platform is proposed, integrating technology managers, concept validation, financial empowerment, and industry activation to address the challenges of technology achievement transformation [8][9]. Group 4: Role of Technology Managers - Technology managers are becoming core assets in the transformation ecosystem, evolving from simple connectors to complex product managers who oversee the entire process from technology evaluation to commercialization [10][12]. - Shanghai is enhancing the training of technology managers through partnerships with universities and establishing a talent development framework to improve their professional recognition and societal status [14].

Core Insights - The transformation of scientific and technological achievements in China is hindered by a lower conversion rate compared to developed countries, with the rate increasing from 25% in 2010 to 35% in recent years [1] - A new professional group known as "technical managers" is emerging in Shanghai to bridge the gap between innovation and industry, acting as key facilitators in the technology transfer process [1] Group 1: Role of Technical Managers - Technical managers are evolving from simple connectors to complex roles akin to product managers, essential for the commercialization of scientific research [7] - They are positioned as "investment banking project leaders," collaborating closely with research teams from the project selection stage to oversee technology evaluation and commercialization strategies [4][7] - The growth of technical managers is supported by educational initiatives from institutions like Shanghai Jiao Tong University and Tongji University, which provide specialized training and practical experience [9] Group 2: Innovation in Technology Transfer - Shanghai is fostering a diverse ecosystem of technology transfer entities, moving away from traditional models reliant on transaction fees and government subsidies to a more market-oriented approach [2][4] - New service models such as "incubation-investment combination" and "technical manager as CEO" are being explored to enhance the value of technology transfer services [2][4] - The involvement of specialized technology transfer institutions has led to significant achievements, including over 300 projects in various fields and a total technology transaction amount nearing 2 billion yuan [3] Group 3: Challenges and Solutions - Traditional technology transfer faced inefficiencies due to misalignment between supply and demand, with scientists struggling to find buyers for their innovations [6] - The new approach involves "cleaning" and "packaging" technologies to make them market-ready, addressing issues of pricing and compliance that previously hindered transactions [6] - The integration of technical managers into the process is seen as crucial for overcoming the barriers in technology commercialization, ensuring that both technical and business perspectives are considered [3][4]

Core Insights - In 2025, five new parks were recognized as "Demonstration Parks for Business Environment" in Beijing, bringing the total to ten parks evaluated under the "Yizhuang New City Business Environment Demonstration Park Evaluation Index System" [1][2] - The evaluation system aims to transform the broad concept of "business environment" into measurable and improvable operational standards, fostering a nurturing ecosystem for enterprises [1][2] Group 1: New Demonstration Parks - The five newly recognized parks include Beijing Economic International Enterprise Avenue, Yichuang High-tech Biomedicine Park, High-tech Audiovisual Industry Park, Zhongke Jingwei Intelligent Manufacturing Industry Park, and Dazhu Industrial 4.0 Innovation Park, all noted for their excellent performance in business environment evaluation [2][4] - Yichuang High-tech Biomedicine Park has established a comprehensive professional service system covering the entire industry chain, significantly reducing R&D costs for enterprises [2][4] - Dazhu Industrial 4.0 Innovation Park embodies the "Industry 4.0" concept, housing over 70 high-tech enterprises in robotics, smart manufacturing, and biotechnology [4][5] Group 2: Continuous Improvement and Impact - The first batch of five parks has maintained their leading positions in the 2025 follow-up evaluation, demonstrating a transition from recognition to leadership [8][10] - The parks have upgraded their incubation services, resulting in a 40% increase in policy application approval rates and a stable occupancy rate of over 95% [10][11] - The recognition as demonstration parks has attracted over 50 new technology-based SMEs and additional investments exceeding 200 million yuan, with a 30% reduction in average entry time for new enterprises [10][11] Group 3: Government and Market Collaboration - The growth of demonstration parks is rooted in a carefully constructed nurturing system by the Beijing Economic Development Zone, emphasizing deep collaboration between government and market forces [12][13] - A scientific evaluation system assesses ten indicators related to park management, infrastructure, and service capabilities, providing a comprehensive "health report" for continuous improvement [12][13] - The government offers long-term support to demonstration parks, including talent recognition and priority for incubator construction, enhancing flexibility in talent competition [12][13]

Core Viewpoint - The construction of pilot test platforms in China's manufacturing sector is steadily advancing, supported by national policies, with over 2,400 platforms expected to be built by 2024 and more than 150,000 industrial enterprises engaged in pilot testing activities [1][8]. Group 1: Overview of Pilot Test Platforms - Pilot test platforms serve as an intermediate testing stage before formal production, crucial for transforming new products from the trial phase to industrial application, often referred to as the "last mile" of technology transfer [2]. - The platforms play a vital role in ensuring product quality and feasibility, helping research outcomes transition smoothly from laboratories to production lines [2][5]. Group 2: Types of Pilot Test Platforms - There are three main types of pilot test platforms: resource-based, shared, and ecological. Resource-based platforms focus on individual enterprises' needs, while shared platforms involve collaboration among various stakeholders to enhance technology commercialization [3][4]. - Ecological platforms, led by government entities, aim to create a collaborative environment for technology transfer, integrating resources from various sectors to support innovation and industrial development [4][5]. Group 3: Industry Policies - National policies have significantly supported the development of pilot test platforms, including the "Implementation Opinions on the Innovative Development of Manufacturing Pilot Test" released in January 2024, which encourages leading enterprises to build industry chain pilot platforms [6][7]. - Local governments are also actively promoting pilot test platform development through various initiatives, such as funding and support for collaborative construction among industry parks, research institutions, and enterprises [7]. Group 4: Current Industry Status - Since the early 1990s, China has been developing pilot test platforms, evolving from a focus on internal research outcomes to addressing market demands and fostering open, collaborative models [8]. - The number of pilot test platforms in the manufacturing sector is expected to exceed 2,400 by 2024, with significant investments in new projects across various regions [8]. Group 5: Competitive Landscape - The pilot test platform industry encompasses multiple sectors, including electronics, biomedicine, new materials, and artificial intelligence, with leading companies leveraging their technological advantages to dominate the market [10]. - Key players in the industry include companies like Shenzhen Jinbai Technology Co., Ltd. and Morning Light Biological Technology Group Co., Ltd., which have established robust pilot test platforms to enhance their research and development capabilities [11][13]. Group 6: Future Trends - The future of pilot test platforms is characterized by systematic and standardized development, with the establishment of a standardization technical committee to create guidelines for platform construction and management [13]. - There is a growing focus on specialization and networking, with pilot platforms increasingly targeting specific industries and utilizing digital technologies to create interconnected service networks [13].

12月23日，记者从省科技厅获悉：为通过"以演代评"方式助推更多科技成果转化为现实生产力，陕 西将进一步完善路演机制，优化科技成果评价体系，推动路演规范化、常态化、专业化、品牌化发展。 省科技厅将委托技术转移、投融资、科技服务机构免费对进入项目库的项目进行政策辅导、模拟路 演、资源对接等服务，提升项目质量，并择优对路演就地转化项目进行后补助支持。其中，科研团队与 企业签订科技成果转化合同，由他人实施转化并取得较好成效，按照不超过科研团队与企业签订的转 让、许可、横向合作合同实际到账金额的25%给予科研团队后补助支持，最高10万元。科研团队通过自 主实施转化、以科技成果作价投资实施转化、与他人共同实施转化等方式创办企业，评价为科技型中小 企业的，给予不超过10万元后补助支持，或认定为高新技术企业的，给予不超过30万元后补助支持；获 得投融资机构投资，按照不超过获得投资额的30%、最高不超过50万元给予后补助支持。 省科技厅将加强对参与路演并落地转化创办企业的项目的跟踪评价，对发展成效明显且形成典型经 验做法的企业，给予不超过20万元后补助支持。（记者 张梅） 省科技厅相关负责人介绍，全省将构建"1+N"路演矩阵 ...

（来源：内蒙古日报） 转自：内蒙古日报 本报巴彦淖尔12月27日电 （记者 薛来）日前，经自治区人力资源和社会保障厅批准，河套学院获批设 立自治区博士后创新实践基地。这标志着巴彦淖尔市在推进高层次科研平台建设、集聚和培养拔尖创新 人才方面取得重要进展，实现了博士后创新实践基地"零"的突破。 据悉，博士后创新实践基地将作为高水平青年科研人才的集聚平台，依托内蒙古农业大学等高校的博士 后科研流动站，联合招收培养博士后研究人员，聚焦关键领域核心技术攻关，着力提升自主创新能力。 基地建成后，将与河套学院现有自治区重点实验室等科研平台协同发力，为学院学科建设、硕士点申报 等工作提供有力支撑。同时，基地将紧密对接全市发展需求，重点围绕动物疫病防控等领域开展科研攻 关，为推动巴彦淖尔市高质量发展提供坚实的人才保障和技术支持。 博士后创新实践基地是自治区级高层次科研与人才培育平台，对促进产学研深度融合、加速科技成果转 化具有重要意义。此次获批，体现了自治区对河套学院办学实力、科研水平和服务地方经济社会发展能 力的认可，成为河套学院发展历程中的重要里程碑。 ...

Group 1 - The core message emphasizes the collaboration between Southeast University and the city of Nanjing, highlighting their mutual growth and the importance of technology innovation for urban development [2][3] - The city of Nanjing aims to establish itself as a global center for industrial technology innovation, leveraging the strengths of Southeast University in technology transfer and talent cultivation [2] - The meeting focused on enhancing the integration of academic research and industrial needs, with a specific call for the technology transfer service team to facilitate the commercialization of research outcomes [3] Group 2 - Southeast University has been recognized for its contributions to Nanjing's technological and industrial advancements, particularly in recent years through its commitment to innovation and collaboration [2] - The city encourages Southeast University to accelerate the development of major scientific innovation platforms and to tackle key technological challenges [2] - There is a strong emphasis on attracting high-end talent to Nanjing, with initiatives aimed at nurturing strategic scientists and engineering leaders to support the city's high-quality development [2][3]

Group 1 - The core idea of the articles revolves around the innovative approach to treating corn soaking wastewater, transforming it into fertilizers and animal feed, thus addressing environmental pollution concerns [1][2]. - Wang Zhigang, a prominent scholar in the field of microbiology, has led significant advancements in the industrial application of microbial resources, resulting in over 80 published papers and 21 authorized patents [1][2]. - The new technology developed allows for the biological fermentation of wastewater at room temperature, achieving low energy consumption and zero pollutant discharge, which is a breakthrough for the bio-industry in China [2]. Group 2 - Heilongjiang Province is the largest corn production base in China, accounting for 16% of the national output, and leads the country in corn processing, with wastewater from the soaking process representing 30% of the national total [2]. - The research outcomes have been successfully transferred to Zhongke Liyuan Environmental Technology Co., Ltd. for 20 million yuan, setting a record for the conversion of research achievements from provincial universities [2]. - Collaborations with well-known companies such as Feihe Dairy and Yihai Kerry have enabled the practical application of research findings, demonstrating a commitment to integrating scientific innovation with rural revitalization and regional development [3].

Core Insights - The article highlights the advancements in agricultural technology in Guangxi, particularly focusing on the automation of sugarcane harvesting, which significantly enhances productivity and efficiency [1] Group 1: Agricultural Innovation - The fourth-generation automated sugarcane harvester can harvest 30-40 tons of sugarcane per day, equivalent to the work of 30 people [1] - Guangxi's focus on mechanizing the sugarcane industry is supported by strong policy backing, with nearly 90% of surveyed enterprises praising innovation policies such as "specialized, refined, and new" support and R&D expense deductions [1][1] - The Guangxi Science and Technology Department has secured nearly 10 million yuan in research funding for the Guangxi Science and Technology Group, enhancing its research capabilities and leading to multiple patents [1] Group 2: Policy Support and Ecosystem - The government provides not only financial support but also guidance in integrating resources, which is crucial for enterprise development [1] - The establishment of a comprehensive data platform covering "plowing, planting, managing, and harvesting" has been a significant achievement for the Guangxi Science and Technology Group [1] - The implementation of specialized services and support has allowed companies like Runjian Co., Ltd. to focus on innovation, resulting in a robust development trajectory [1] Group 3: Technology Transfer and Economic Impact - Guangxi has seen a significant increase in technology transfer, with 6,243 technology achievements registered from January to October, a year-on-year increase of 10.83% [1] - The total value of technology contracts reached 70.36 billion yuan, reflecting a 22.96% year-on-year growth [1] - Innovations such as AI translation glasses and breakthroughs in dairy cattle breeding have successfully transitioned from laboratories to market applications, demonstrating the effectiveness of Guangxi's innovation ecosystem [1]

Core Insights - The article emphasizes the importance of enhancing industrial technological innovation capabilities by applying scientific and technological achievements to specific industries and supply chains to improve competitiveness [1] Group 1: Technology Innovation and Industry Development - The national industrial and information technology conference highlighted the need to focus on "0 to 1" innovations, specifically targeting core technologies that drive industrial development, indicating a strong alignment of technological innovation with industry needs [2] - The approach of "industry posing questions and technology providing answers" is deemed crucial for building a modern industrial system, with a focus on addressing current needs through targeted innovation and aligning with broader industrial transformation trends [2] Group 2: Manufacturing and Pilot Platforms - China has established over 2,400 pilot platforms for manufacturing, with a reported 80% success rate for industrialization of technologies that have undergone pilot testing, compared to only 30% for those that have not [3] - The conference called for strengthening high-level manufacturing pilot platforms and creating a nationwide service network to enhance the utilization of these platforms, aiming to solve the "last mile" challenge in technology transfer [3] Group 3: Market-Oriented Technology Transfer - To facilitate technology transfer, a "pay after use" reform pilot will be implemented in 2026, aimed at lowering barriers for technology adoption and reducing innovation risks for enterprises, thereby encouraging more companies to engage with high-value technological achievements [4] Group 4: Emerging Industries and Innovation - The focus for the upcoming year includes developing emerging pillar industries such as integrated circuits, new displays, new materials, aerospace, low-altitude economy, and biomedicine, alongside supporting AI advancements and satellite IoT commercial trials [5] - The government plans to nurture quality enterprises by identifying and supporting "little giant" companies, manufacturing champions, and national-level industry clusters, while also addressing overdue payments to businesses [5]