Bridging micro–macro dynamics in nanotechnology commercialisation: How governance and absorptive capacity shape innovation performance
研究了欧洲12国250家纳米技术企业的面板数据、30次深度访谈和97份调查,发现分权治理结构促进知识产权和长期盈利,吸收能力在有利区域政策下增强效果,但密集价值网络会因协调过载抑制新产品开发,地理邻近可缓解此效应。
Despite the transformative promise of nanotechnology, its commercialisation across Europe remains constrained by a persistent gap between micro-level organisational dynamics and macro-level contextual influences. This study integrates the resource-based view (RBV) with a dynamic capabilities perspective to examine how internal governance structures and absorptive capacity interact with regional policies and geographical proximity to shape innovation performance in collaborative R&D partnerships. Using a mixed-methods design across 12 European countries, we combine panel data from 250 nanotechnology firms (sourced from Orbis and World Bank databases) with 30 in-depth interviews and 97 survey responses. Fixed-effects regression models reveal that decentralised governance structures foster intellectual property generation and enhance long-term profitability. Furthermore, absorptive capacity amplifies these effects under supportive regional policy environments. Dense value networks, however, can inhibit new product development due to coordination overload – an effect mitigated by geographical proximity. These findings refine the RBV by highlighting the contingent nature of internal–external synergies in volatile, high-technology sectors. The study provides actionable insights for R&D managers and EU policymakers seeking to align governance flexibility and absorptive capacity with the evolving goals of Horizon Europe. • The study uncovers the micro–macro dynamics shaping the commercialisation of nanotechnology R&D across Europe. • We investigate how governance mechanisms and absorptive capacity jointly drive commercialisation outcomes in collaborative R&D initiatives. • The results show that decentralised governance structures strengthen intellectual property creation and improve long-term profitability. • Absorptive capacity further amplifies these gains under supportive regional policy environments; meanwhile, dense value networks can hinder new product development unless offset by geographic proximity. • By linking firm-level strategies to regional innovation policies through a multi-country European analysis, the study addresses a key gap in the nanotechnology commercialisation literature.