•  
  •  
 

Bulletin of Chinese Academy of Sciences (Chinese Version)

Keywords

innovative infrastructure; industries of the future; innovation chain

Document Type

S&T Innovation Leads Modern Industrial System Construction

Abstract

Industries of the future (IoTF) are characterized by a distinctive whole chain and high scientific and technological content, and as an important carrier to support the innovation activities of industries of the future, the construction and layout of innovation infrastructures, such as large scientific devices, major scientific and technological innovation platforms, pilot bases, etc., will inevitably develop towards whole chain clustering. This study tries to explain the basic concept of innovation infrastructure clusters for industries of the future, sort out the practices and results of fostering industries of the future based on innovation infrastructure clusters in some regions in China, and discuss the role of innovation infrastructure clusters in supporting the development of industries of the future, and puts forward suggestions on the construction of innovation infrastructure clusters in China from the perspective of industries of the future.

First page

1163

Last Page

1171

Language

Chinese

Publisher

Bulletin of Chinese Academy of Sciences

References

1 黄从利, 周非特, 徐祥, 等. 加强应用支撑型重大科技基础设施建设,增强我国高质量发展的科技基础能力. 中国科学院院刊, 2024, 39(3): 423-435. Huang C L, Zhou F T, Xu X, et al. Strengthen establishment of application-supported major science and technology infrastructure to enhance basic capacity of science and technology for high-quality development. Bulletin of Chinese Academy of Sciences, 2024, 39(3): 423-435. (in Chinese)

2 张玲玲, 黄从利, 周非特, 等. 构建面向重大科技基础设施的区域战略性新兴产业筛选体系:结构框架与实践思考. 中国科学院院刊, 2024, 39(3): 436-446. Zhang L L, Huang C L, Zhou F T, et al. Build regional strategic emerging industry selection system for major scientific and technological infrastructure: Structural framework and practical consideration. Bulletin of Chinese Academy of Sciences, 2024, 39(3): 436-446. (in Chinese)

3 唐玲玲, 冯华. 创新基础设施对经济高质量发展的影响——基于协同效应视角. 科技进步与对策, 2024, 41(6): 63-74.Tang L L, Feng H. The impact of innovation infrastructure on high-quality economic development: The perspective of synergy effect. Science & Technology Progress and Policy, 2024, 41(6): 63-74. (in Chinese)

4 李志遂, 聂常虹, 刘倚溪, 等. 大科学装置(集群)驱动型创新生态系统的理论模型与实证研究. 管理评论, 2023, 35(1): 121-133.Li Z S, Nie C H, Liu Y X, et al. Innovation ecosystem driven by large-scale scientific facilities (clusters): A theoretical model and empirical research. Management Review, 2023, 35(1): 121-133. (in Chinese)

5 Roig-Tierno N, Alcázar J, Ribeiro-Navarrete S. Use of infrastructures to support innovative entrepreneurship and business growth. Journal of Business Research, 2015, 68(11): 2290-2294.

6 Feldman M P, Florida R. The Geographic sources of innovation: Technological infrastructure and product innovation in the United States. Annals of the Association of American Geographers, 1994, 84(2): 210-229.

7 Justman M, Teubal M. Innovation policy in an open economy: A normative framework for strategic and tactical issues. Research Policy, 1986, 15(3): 121-138.

8 Furman J L, Porter M E, Stern S. The determinants of national innovative capacity. Research Policy, 2002, 31(6): 899-933.

9 姚冠辉, 郑晓年. 面向“十四五”谋篇布局:统筹推进创新基础设施建设. 中国科学院院刊, 2020, 35(11): 1366-1372.Yao G H, Zheng X N. Structuring and organizing for 14th Five-Year Plan, balancedly promoting the construction of innovation infrastructure. Bulletin of Chinese Academy of Sciences, 2020, 35(11): 1366-1372. (in Chinese)

10 陈套, 冯锋. 大科学装置集群效应及管理启示. 西北工业大学学报(社会科学版), 2015, 35(1): 61-66.Chen T, Feng F. Scientific apparatus cluster effect and its management enlightenment. Journal of Northwestern Polytechnical University (Social Sciences), 2015, 35(1): 61-66. (in Chinese)

11 梁永福, 盘思桃, 林雄, 等. 大科学装置集群的协同创新与产业带动效应——以广东大科学中心为例. 科技管理研究, 2018, 38(3): 5-10. Liang Y F, Pan S T, Lin X, et al. Collaborative innovation and industry-driven effect of large-scale scientific facilities cluster: Taking Guangdong large-scale scientific facilities center as an example. Science and Technology Management Research, 2018, 38(3): 5-10. (in Chinese)

12 西桂权, 黎晓东, 孟潇. 基于概念验证视角的颠覆性技术成果转化模式研究. 科学管理研究, 2022, 40(1): 46-53.Xi G Q, Li X D, Meng X. Research on achievements transformation model of disruptive technology based on proof-of-concept. Scientific Management Research, 2022, 40(1):46-53. (in Chinese)

13 张越, 余江, 杨娅, 等. 颠覆性技术驱动的未来产业培育模式与路径研究——美国布局下一代集成电路产业的启示. 中国科学院院刊, 2023, 38(6): 895-906. Zhang Y, Yu J, Yang Y, et al. Cultivation mode and path of future industries driven by disruptive technologies—Enlightenment of the United States’ layout of next generation of integrated circuit industry. Bulletin of Chinese Academy of Sciences, 2023, 38(6): 895-906. (in Chinese)

14 潘教峰, 鲁晓, 王光辉. 科学研究模式变迁:有组织的基础研究. 中国科学院院刊, 2021, 36(12): 1395-1403. Pan J F, Lu X, Wang G H. Transforming scientific research: Organized basic research. Bulletin of Chinese Academy of Sciences, 2021, 36(12): 1395-1403. (in Chinese)

15 陈芳, 王晓明. 先导试验区:我国未来产业发展的新引擎. 科技日报, 2022-03-05(06). Chen F, Wang X M. Pilot test zones: A new engine for China’s future industrial development. Science and Technology Daily, 2022-03-05(06). (in Chinese)

16 洪敬谱. 安徽合肥:打造国际领先量子科技与产业“双高地”. 科技日报, 2024-02-18(02). Hong J P. Hefei, Anhui: Creating a “double highland” for internationally leading quantum technology and industry. Science and Technology Daily, 2024-02-18(02). (in Chinese)

17 李国杰. 智能化科研(AI4R):第五科研范式. 中国科学院院刊, 2024, 39(1): 1-9. Li G J. AI4R: The fifth scientific research paradigm. Bulletin of Chinese Academy of Sciences, 2024, 39(1): 1-9. (in Chinese)

18 杨小康, 许岩岩, 陈露, 等. AI for Science:智能化科学设施变革基础研究. 中国科学院院刊, 2024, 39(1): 59-69. Yang X K, Xu Y Y, Chen L, et al. AI for Science: AI enabled scientific facility transforms fundamental research. Bulletin of Chinese Academy of Sciences, 2024, 39(1): 59-69. (in Chinese)

Share

COinS