光伏系统
光伏
工程类
电
能源安全
能源供应
劳动力
太阳能
成熟度(心理)
市电
业务
功率(物理)
太阳能
风力发电
风险分析(工程)
工程管理
系统工程
环境经济学
能量(信号处理)
发电
国家安全
生产(经济)
工程伦理学
外包
新兴技术
技术评估
可再生能源
政府(语言学)
作者
Rebecca Saive,Gavin Conibeer,Lisanne M. Einhaus,Jean‐François Guillemoles,Koami Soulemane Hayibo,Karin Hinzer,Jacob J. Krich,Martha Lenio,Michael P. Nielsen,Frederick U. Nitta,Ian R. Sellers,Daniel Suchet,Eric J. Tervo,T. Tiedje,Jelle Westerhof
摘要
ABSTRACT Despite the commercial maturity of photovoltaic (PV) technology, fundamental research remains essential for continued innovation, energy resilience, and strategic independence. The low cost and distributed nature of solar and wind power make them uniquely suited to deliver secure electricity without reliance on fuel supply chains. However, these strengths are the result of decades of foundational scientific inquiry, and continued progress depends on sustained support for such work. This paper outlines a future‐oriented agenda for fundamental PV research, addressing challenges in materials, device architectures, characterization, and system integration. Drawing on discussions from the 53rd IEEE Photovoltaic Specialists Conference (PVSC) in Montreal, we critically examine the narrative that PV is a “solved” problem. We argue that deep scientific exploration is not only vital for unlocking next‐generation technologies but also for training the skilled workforce required to maintain technological leadership and to support the reliable functioning of national energy infrastructure. We conclude with targeted recommendations for funding agencies and policymakers on how to structure research support to maximize long‐term impact.
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