A framework and methodology for analyzing technology spillover processes with an application in solar photovoltaics

IF 11.1 1区管理学 Q1 ENGINEERING, INDUSTRIAL

Technovation Pub Date : 2024-05-29 DOI:10.1016/j.technovation.2024.103048

Sergey Kolesnikov , Anna P. Goldstein , Bixuan Sun , Gabriel Chan , Venkatesh Narayanamurti , Laura Diaz Anadon

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引用次数: 0

Abstract

Technology spillovers, understood as knowledge flows across technology domains, are an important mechanism for innovation, as progress in one technology area can lead to unexpected benefits in other technology areas. Despite the importance of technology spillovers in theories of recombinant innovation, significant gaps remain in our understanding of how spillovers across knowledge domains occur, what factors enable or affect spillovers, or how much consideration should be given to technology spillovers in research and innovation policy and management. In this paper, we develop and demonstrate novel conceptual and methodological tools to address these knowledge gaps. Specifically, we introduce a conceptual framework that views technology spillovers as a dynamic process of micro-level knowledge transfer across technological domains that drives recombinant innovation in a knowledge-receiving domain. We use this framework to develop a process-tracing methodology for identifying and analyzing individual micro-level technology spillovers. We demonstrate the application of our framework and methodology in a case of three important innovations in crystalline silicon solar photovoltaics by reconstructing a detailed history of how technology spillovers have played a critical role in enabling and driving these three innovations over time. We show how our approach generates important insights relevant to public policy and R&D management that aim to harness spillovers for accelerating innovation.

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分析技术溢出过程的框架和方法，在太阳能光伏技术中的应用

技术溢出效应被理解为跨技术领域的知识流动，是创新的一个重要机制，因为一个技术领域的进步会给其他技术领域带来意想不到的好处。尽管技术溢出效应在重组创新理论中非常重要，但我们对跨知识领域溢出效应如何发生、哪些因素促成或影响溢出效应、在研究与创新政策和管理中应在多大程度上考虑技术溢出效应等问题的理解仍存在巨大差距。在本文中，我们开发并展示了新颖的概念和方法工具，以解决这些知识空白。具体来说，我们引入了一个概念框架，将技术溢出视为跨技术领域的微观知识转移的动态过程，这一过程推动了知识接收领域的重组创新。我们利用这一框架开发了一种过程追踪方法，用于识别和分析单个微观层面的技术溢出效应。我们以晶体硅太阳能光伏技术中的三项重要创新为例，展示了我们的框架和方法的应用，重构了技术溢出如何在长期促成和推动这三项创新中发挥关键作用的详细历史。我们展示了我们的方法如何产生与旨在利用溢出效应加速创新的公共政策和研发管理相关的重要见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Technovation 管理科学-工程：工业

CiteScore

15.10

自引率

11.20%

发文量

208

审稿时长

91 days

期刊介绍： The interdisciplinary journal Technovation covers various aspects of technological innovation, exploring processes, products, and social impacts. It examines innovation in both process and product realms, including social innovations like regulatory frameworks and non-economic benefits. Topics range from emerging trends and capital for development to managing technology-intensive ventures and innovation in organizations of different sizes. It also discusses organizational structures, investment strategies for science and technology enterprises, and the roles of technological innovators. Additionally, it addresses technology transfer between developing countries and innovation across enterprise, political, and economic systems.