面向世界科技强国建设的科教融合新体系初探

余江; 陈凤; 方元欣

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面向世界科技强国建设的科教融合新体系初探

科教融合 | 更新时间：2022-10-18

- 面向世界科技强国建设的科教融合新体系初探
- A Preliminary Exploration of the New System of Research-Education Integration for the Construction of a Scientific and Technological Powerhouse
- 科教发展研究 2022年2卷第3期页码：55-78
- 作者机构：
  
  1.中国科学院大学公共政策与管理学院
  2.中国科学院科技战略咨询研究院
- 作者简介：
  
  余江，中国科学院大学公共政策与管理学院教授，中国科学院科技战略咨询研究院研究员，博士生导师，兼任中国科学院大学网络创新与发展中心主任、中国科学学与科技政策研究会数字创新与管理专委会主任；研究领域为科技创新政策、技术与产业竞争战略。
  陈凤（通信作者），中国科学院大学公共政策与管理学院博士后；研究领域为科技创新管理与政策。
  方元欣，中国科学院大学公共政策与管理学院博士生；研究领域为科技创新政策。
- 基金信息：
  
  国家自然科学基金重点项目(71834006);国家自然科学基金青年科学基金项目(72104227);教育部哲学社会科学重大攻关课题项目(20JZD22);中央高校基本科研业务费专项资金项目(E2E42112)
- DOI：
  中图分类号：
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余江，陈凤，方元欣.面向世界科技强国建设的科教融合新体系初探[J].科教发展研究，2022，2（3）：55-78.

YU Jiang, CHEN Feng, FANG Yuanxin. A Preliminary Exploration of the New System of Research-Education Integration for the Construction of a Scientific and Technological Powerhouse[J]. Journal of Science, Technology and Education Studies, 2022, 2(3): 55-78.
余江，陈凤，方元欣.面向世界科技强国建设的科教融合新体系初探[J].科教发展研究，2022，2（3）：55-78. DOI：

YU Jiang, CHEN Feng, FANG Yuanxin. A Preliminary Exploration of the New System of Research-Education Integration for the Construction of a Scientific and Technological Powerhouse[J]. Journal of Science, Technology and Education Studies, 2022, 2(3): 55-78. DOI：

摘要

在应对新一轮科技革命和支撑国家世界科技强国建设中，高校需要深入思考新时代背景下科教融合的新特征、新趋势和新实践，加快科教融合的育人模式创新和体系效能提升，积极推动科教融合的改革和发展与国家重大战略需求相适配，在服务我国世界科技强国建设和迎接世界科学革命未来变局中有更大作为。研究在梳理国内外代表性科教融合实践的基础上，系统阐述了世界科技强国新背景为科教融合发展带来的新要求、新动力和新逻辑。同时，基于系统观从“大科学”“大教育”的战略高度思考并探索构建科教融合新体系，将面向国家重大战略需求的科教融合新体系解构为有效促进“大教育”的科研系统、有效促进“大科学”的教育系统，以及两个系统交叉融合与纵深并进的新联系。最后，结合我国科教融合发展面临的新形势和新任务，进一步从顶层设计、实施重点和制度保障三个维度提出面向世界科技强国建设的科教融合发展路径设想和针对性建议。

Abstract

In dealing with a new round of scientific and technological revolution and supporting the construction of a technological powerhouse, universities are supposed to think deeply about the new characteristics, trends, and practices of research-education integration in the new era. We should accelerate the innovation of research-education integration training mode and the effectiveness of the system, actively promote the reform and development of research-education integration to match the major strategic needs of the country, enable the construction of a technological powerhouse, and adapt to the future changes of the global technological revolution. Based on a systematic review of the practices of research-education integration at home and abroad, this study illustrates the new requirements, impetus and logic for science, technology and education integration in the new context of building a scientific and technological powerhouse. Meanwhile, it systematically considers and explores the new system of research-education integration from the strategic height of "macro science" and "great education" , decoding the new system of research and education for the major strategic needs of the country into a scientific research system that effectively promotes "great education" and a teaching system that effectively promotes "macro science" , and the new connections of integration, intersection, and deepening of the two systems. Finally, taking into account the new situation and new tasks facing the development of research-education in China, it further proposes a vision of the path of research-education integration for a global scientific powerhouse and provides suggestions from three dimensions: top-level design, implementation priorities and institutional guarantee.

关键词

世界科技强国“大科学”观“大教育”观科教融合新体系

Keywords

Scientific and Technological PowerhouseViewpoint of "Macro Science"Viewpoint of "Great Education"New System of Research-Education Integration

references

中国政府网.习近平出席中央人才工作会议并发表重要讲话[EB/OL].（2021-09-28）[2022-08-12]. http://www.gov.cn/xinwen/2021-09/28/content_5639868.htmhttp://www.gov.cn/xinwen/2021-09/28/content_5639868.htm.

Gov.cn. XI Jinping Attended the Central Conference on Talent-Related Work and Delivered an Important Speech[EB/OL]. (2021-09-28) [2022-08-12]. http://www.gov.cn/xinwen/2021-09/28/content_5639868.htmhttp://www.gov.cn/xinwen/2021-09/28/content_5639868.htm (in Chinese).

张红霞.从近现代大学组织特点看科教融合体系建设之逻辑[J].苏州大学学报（教育科学版），2020，8（4）：21-29.

ZHANG Hongxia. The Logic of Constructing the Research and Education Integration System from the Perspective of Organizational Characteristics of Modern Universities[J]. Journal of Soochow University (Educational Science Edition), 2020, 8(4): 21-29 (in Chinese).

刘继安，盛晓光.科教融合的动力机制、治理困境与突破路径：基于中国科学院大学案例的分析[J].中国高教研究，2020（11）：26-30.

LIU Ji’an, SHENG Xiaoguang. Dynamics, Predicament and Breakthrough of Integration of Research and Education: A Case Study of the University of Chinese Academy of Sciences[J]. China Higher Education Research, 2020(11): 26-30 (in Chinese).

罗筑华.科教融合的困境、潜因与对策[J].中国高校科技，2020（7）：71-73.

LUO Zhuhua. The Dilemma, Potential Causes and Countermeasures of Research and Education Integration[J]. China University Science & Technology, 2020(7): 71-73 (in Chinese).

张飞龙，于苗苗，马永红.科教融合概念再构及研究生教育治理[J].中国高教研究，2020（11）：31-37.

ZHANG Feilong, YU Miaomiao, MA Yonghong. Reconstruction of the Concept of Integration of Research and Education and the Governance of Graduate Education[J]. China Higher Education Research, 2020(11): 31-37 (in Chinese).

魏江，陈光沛.科教融合一元论：概念内涵、整合性框架与未来展望[J].科教发展研究，2022，2（2）：18.

WEI Jiang, CHEN Guangpei. A Monistic Integration of Research and Teaching: Connotation, Integrated Framework, and Future Prospects[J]. Journal of Science, Technology and Education Studies, 2022, 2(2): 18 (in Chinese).

周萌，曹政才.基于虚拟仿真平台的科教融合拔尖创新人才培养方案探索：以机器人控制技术为例[J].高等工程教育研究，2020（6）：62-66，72.

ZHOU Meng, CAO Zhengcai. Exploration Method of the Integration of Science and Education for Top-notch Innovative Talents Based on Virtual Simulation Platform[J]. Research in Higher Education of Engineering, 2020(6): 62-66, 72 (in Chinese).

翟婉明，刘建新.构建面向交通强国需求的轨道交通拔尖创新人才培养模式[J].高等工程教育研究，2021（5）：12-15，56.

ZHAI Wanming, LIU Jianxin. On Cultivation Mode of Top-notch Innovative Talents in Rail Transit for Building Transportation Power[J]. Research in Higher Education of Engineering, 2021(5): 12-15, 56 (in Chinese).

冯其红，王志华，齐宁.面向新工科的石油工程专业改造升级路径研究与实践[J].高等工程教育研究，2021（5）：34-38.

FENG Qihong, WANG Zhihua, QI Ning. Research and Practice on Upgrading Path of Petroleum Engineering Program for Emerging Engineering[J]. Research in Higher Education of Engineering, 2021(5): 34-38 (in Chinese).

姚郁.面向海洋未来科技领军人才培养的智慧海洋学院建设研究[J].高等工程教育研究，2022（2）：8-15.

YAO Yu. On the Construction of Smart Marine College Based on the Cultivation of Leading Talents in Marine Science and Technology in the Future[J]. Research in Higher Education of Engineering, 2022(2): 8-15 (in Chinese).

苏海佳，张婷，谭天伟.未来化工行业领军人才培养改革的思考[J].中国大学教学，2021 （11）：14-18.

SU Haijia, ZHANG Ting, TAN Tianwei. Reflections on the Future Reform of Training Leading Talents in Chemical Industry[J]. China University Teaching, 2021(11): 14-18 (in Chinese).

吴飞，吴超，朱强.科教融合和产教协同促进人工智能创新人才培养[J].中国大学教学，2022（Z1）：15-19.

WU Fei, WU Chao, ZHU Qiang. Research-Education Integration and Industry-Education Synergy to Promote the Cultivation of Innovative Talents in Artificial Intelligence[J]. China University Teaching, 2022(Z1): 15-19 (in Chinese).

杨朦晰，代丹，王雅丽.以创新引领未来：未来技术学院的探索——中国科学院大学未来技术学院院长江雷院士访谈[J].高等工程教育研究，2021（2）：1-5.

YANG Mengxi, DAI Dan, WANG Yali. Lead the Future with Innovation: An Exploration of Future Technology School—Interview with Academician Jiang Lei, President of Future Technology School, University of Chinese Academy of Sciences[J]. Research in Higher Education of Engineering, 2021(2): 1-5 (in Chinese).

王颖，刁丽颖，苗海霞.科研机构研究生教育管理模式演变剖析：以中国科学院所属研究所为例[J].研究生教育研究，2020（6）：1-6.

WANG Ying, DIAO Liying, MIAO Haixia. An Analysis of the Evolution of Postgraduate Education Management Mode in Scientific Research Institutions: Based on Scientific Research Institutions of Chinese Academy of Sciences[J]. Journal of Graduate Education, 2020(6): 1-6 (in Chinese).

张继龙，郑润廷.科研机构如何办大学?：基于中俄两校科教融合的案例分析[J].江苏高教，2022（4）：111-117.

ZHANG Jilong, ZHENG Runting. How Does Academy of Sciences Run a University?[J]. Jiangsu Higher Education, 2022(4): 111-117 (in Chinese).

许光文，李漫红，于三三，等.高校与科研院所科教融合协同育人探索[J].中国高等教育，2022（1）：41-43.

XU Guangwen, LI Manhong, YU Sansan, et al. Exploring the Integration of Research and Education between Universities and Research Institutes for Collaborative Education[J]. China Higher Education, 2022(1): 41-43 (in Chinese).

杨燕江，黄海涛.西南联大的科教融合与杰出创新人才培养[J].中国高校科技，2020（Z1）：77-81.

YANG Yanjiang, HUANG Haitao. The Research-Education Integration and Cultivation of Outstanding Innovative Talents at Southwest United University[J]. China University Science & Technology, 2020(Z1): 77-81 (in Chinese).

高培勇.办学定位、办学特色和办学方略的探索与抉择：关于“如何办好中国社会科学院大学”问题的系统思索[J].中国社会科学院大学学报，2022，42（1）：5-21，142.

GAO Peiyong. Exploring and Choosing the Orientation, Characteristic and Strategy in Running the University: Systematic Reflections on “How to Run the University of Chinese Academy of Social Sciences”[J]. Journal of University of Chinese Academy of Social Sciences, 2022, 42(1): 5-12, 142 (in Chinese).

沈成君，冯江.“院+校”农科教融合协同育人模式创新研究[J].中国高校科技，2020（7）：62-66.

SHEN Chengjun, FENG Jiang. Research on the Mode Innovation of Collaborative Education in the “School + University” Integration of Agriculture, Technology, and Education[J]. China University Science & Technology, 2020(7): 62-66 (in Chinese).

陈廷柱，段斌斌.如何看待地方科学院与省属高校走向科教融合发展[J].大学教育科学，2022（2）：19-27.

CHEN Tingzhu, DUAN Binbin. The Integrated Development of Science and Education between Local Science Academies and Provincial Universities[J]. University Education Science, 2022(2): 19-27 (in Chinese).

陈国栋. 大科学研究的主要特征与运行模式[J]. 科学之友，2004（10）：37.

CHEN Guodong. Main Characteristics and Operation Mode of Macro Scientific Research[J]. Friend of Science Amateurs, 2004(10): 37 (in Chinese).

任福昌. “大教育”观念与高等教育自学考试[J]. 教育研究，1994（9）：39-43.

REN Fuchang. The Concept of “Great Education” and Self Study Examination of Higher Education[J]. Educational Research, 1994 (9): 39-43 (in Chinese).

VON HUMBOLDT W. On the Spirit and the Organisational Framework of Intellectual Institutions in Berlin[J]. Minerva, 1970, 8(2): 243.

杨九斌，郭蒙蒙. 战争与大学：二战及冷战后美国研究型大学的发展演进[J].高等理科教育，2020（1）：58-65.

YANG Jiubin, GUO Mengmeng. War and University: The Development of American Research Universities after World War II and the Cold War[J]. Higher Education of Sciences, 2020(1): 58-65 (in Chinese).

BOYER E. Scholarship Reconsidered: Priorities of the Professionate[M]. Princeton: Princeton University Press, 1990: 23.

秦铮，孙福全，袁立科.德美日建设世界科技强国的经验及启示[J].科技管理研究，2022，42（12）：42.

QIN Zheng, SUN Fuquan, YUAN Like. Experience and Enlightenment of Germany, United States, and Japan in Building a Powerhouse in Science and Technology[J]. Science and Technology Management Research, 2022, 42(12): 42 (in Chinese).

施雨丹.使命再定义：日本高等教育发展进程中的国立大学改革[J].高等教育研究，2016，37（3）：104-109.

SHI Yudan. Redefining the Mission: The Reform of the National University in Japan[J]. Journal of Higher Education, 2016, 37(3): 104-109 (in Chinese).

DENG Xiaoping. Setting Things Right in Education[M]//Deng Xiaoping. Selected Works of Deng Xiaoping: Vol. II (1975-1982). Beijing: Foreign Languages Press, 1984 .

杨文杰，张珏.以教育现代化支撑与驱动国家现代化：兼论我国教育现代化的发展愿景[J].教育发展研究，2021，41（3）：2.

YANG Wenjie, ZHANG Jue. Supporting and Driving the Modernization of the Country with the Modernization of Education: On the Development Vision of China’s Modernization of Education[J]. Research in Education Development, 2021, 41(3): 2 (in Chinese).

新华社.“科教结合协同育人行动计划”启动仪式举行　刘延东出席并讲话[N].经济日报，2012-08-30（2）.

Xinhua News Agency. The Launching Ceremony of the “Action Plan for Collaborative Cultivation in Science and Education”; LIU Yandong Attended and Delivered a Speech[N]. Economic Daily, 2012-08-30(2) (in Chinese).

中国政府网.中华人民共和国国民经济和社会发展第十三个五年规划纲要[EB/OL].（2016-03-17）[2022-08-12]. http://www.gov.cn/xinwen/2016-03/17/content_5054992.htmhttp://www.gov.cn/xinwen/2016-03/17/content_5054992.htm.

Gov.cn. The 13th Five-Year Plan for Economic and Social Development of the People’s Republic of China[EB/OL]. (2016-03-17) [2022-08-12]. http://www.gov.cn/xinwen/2016-03/17/content_5054992.htmhttp://www.gov.cn/xinwen/2016-03/17/content_5054992.htm (in Chinese).

YUASA Mitsutomo. The Shifting Center of Scientific Activity in the West[M]//Japanese Studies in the History of Science. Tokyo: Nippon Kagakusi Gakkas, 1962: 57-75.

西北工业大学官网 . 北京大学周程教授作客西工大“翱翔人文讲堂”[EB/OL].（2022-06-17）[2022-08-12]. https://marx.nwpu.edu.cn/info/1010/5423.htmhttps://marx.nwpu.edu.cn/info/1010/5423.htm.

Nwpu.edu.cn. Professor ZHOU Cheng of Peking University Came to School of Marxism to Give an Academic Report[EB/OL]. (2022-06-17) [2022-08-12]. https://marx.nwpu.edu.cn/info/1010/5423.htmhttps://marx.nwpu.edu.cn/info/1010/5423.htm (in Chinese).

人民网.杜祥琬：世界科技强国具备四个主要标志[EB/OL].（2018-09-19）[2022-08-12]. http://m.people.cn/n4/2018/0919/c3381-11631793.htmlhttp://m.people.cn/n4/2018/0919/c3381-11631793.html.

People.cn. DU Xiangwan: Four Major Marks Pertaining to a Major World Scientific and Technological Power[EB/OL]. (2018-09-19) [2022-08-12]. http://m.people.cn/n4/2018/0919/c3381-11631793.htmlhttp://m.people.cn/n4/2018/0919/c3381-11631793.html (in Chinese).

谢海波，汤亚平.基于“四个面向”的高校科技创新能力全面提升研究[J].中国高校科技，2021（6）：54.

XIE Haibo, TANG Yaping. Research on the Comprehensive Enhancement of Science and Technology Innovation Capability of Universities Based on “Four Orientations”[J]. China University Science & Technology, 2021(6): 54 (in Chinese).

何立山，杨发君.创新为本推动设计企业质量转型[J].中国勘察设计，2022（3）：49-53.

HE Lishan, YANG Fajun. To Innovate for the Quality Transformation of Design Companies [J]. China Engineering Consulting, 2022(3): 49-53 (in Chinese).

朱俊华，曹仪，马近远.工程教育组织创新的影响因素与对策：以南方科技大学系统设计与智能制造学院为例[J]. 大学与学科，2022，3（2）：79.

ZHU Junhua, CAO Yi, MA Jinyuan. The Influencing Factors and Strategies of Organizational Innovation in China’s Higher Engineering Education Reform: The Example of the School of System Design and Intelligent Manufacturing at Southern University of Science and Technology[J]. Universities and Disciplines, 2022, 3(2): 79 (in Chinese).

董军社.科教融合：中国科学院大学的特色办学路[J]. 中国新闻发布（实务版），2022（1）：30.

DONG Junshe. Integration of Science, Technology and Education: The Distinctive Path of the University of Chinese Academy of Sciences[J]. China News Release, 2022(1): 30 (in Chinese).

李善廷.百位院士谈教育（上、下卷）[M].北京：人民出版社，2018：163.

LI Shanting. Over 100 Academicians Talking about Education[M]. Beijing: People’s Publishing House, 2018: 163 (in Chinese).

单立楠，徐丽萍，夏文莉，等.浙江大学科教协同育人关键作用探讨[J].中国高校科技，2019（8）：46.

SHAN Linan, XU Liping, XIA Wenli, et al. Exploring the Key Role of Science, Technology and Education Integration in Talent Cultivation at Zhejiang University[J].China University Science & Technology, 2019(8): 46 (in Chinese).

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