瞭望 | 加速迈向未来产业

Group 1: Future Industry Development - The strategic choice to vigorously develop future industries is essential for seizing the global technological competitive high ground and forming a modern industrial system [2] - Future technologies serve as the foundation for future industries, with their generation paths filled with uncertainties [2] - Key challenges include strengthening source technology supply, breaking through conversion bottlenecks, cultivating key talents, and balancing development with safety [2] Group 2: Technology Supply System - Future industries require a multi-dimensional technology supply system, including source technologies, frontier cross-disciplinary technologies, and disruptive technologies [3][4] - Advanced nuclear energy innovation is highlighted as a key technology for future clean energy, showcasing significant progress in China's nuclear technology [4] - China has entered the global first tier in quantum computing industrialization, with a complete independent technology system established in superconducting quantum computing [4][5] Group 3: Challenges in Future Technology - Transitioning from future technology to future industry faces multiple challenges, including technology route selection, engineering implementation, and new productivity conversion mechanisms [5][6] - Advanced nuclear technology still faces challenges in commercial application and regulatory standards, impacting its multi-purpose utilization [6] - Quantum computing requires further foundational research to address issues like qubit coherence time and fault-tolerant quantum computing [7][12] Group 4: Talent Development - The breakthrough in future industries relies on deep interdisciplinary collaboration, with a significant talent gap in fields like brain-computer interfaces [11][12] - Recommendations include establishing interdisciplinary programs in key universities and promoting collaboration between academia and industry for talent cultivation [11][12] - A multi-layered talent education system is suggested to support the quantum computing field, addressing the significant talent demand [12] Group 5: Safety and Regulatory Mechanisms - Establishing an inclusive and prudent regulatory mechanism is necessary to manage the uncertainties of future industries, including exploring "regulatory sandboxes" [13] - A comprehensive safety regulatory system is essential for nuclear facilities, emphasizing the need for strict oversight throughout the lifecycle of nuclear projects [13][14] - The development of technical standards and intellectual property protection in quantum computing is crucial to ensure compatibility and safeguard innovations [14]