来源类型
Peer-journal
DOI
https://doi.org/10.1007/s11051-012-0811-y
Early Patterns of Commercial Activity in Graphene
论文题名译名
石墨烯商业活动的早期模式
发布日期
2012-03-25
出版者
Springer Nature
出版日期
2012-03-25
出版年
2012
卷号
14
期号
4
摘要
Graphene, a novel nanomaterial consisting of a single layer of carbon atoms, has attracted significant attention due to its distinctive properties, including great strength, electrical and thermal conductivity, lightness, and potential benefits for diverse applications. The commercialization of scientific discoveries such as graphene is inherently uncertain, with the lag time between the scientific development of a new technology and its adoption by corporate actors revealing the extent to which firms are able to absorb knowledge and engage in learning to implement applications based on the new technology. From this perspective, we test for the existence of three different corporate learning and activity patterns: (1) a linear process where patenting follows scientific discovery; (2) a double-boom phenomenon where corporate (patenting) activity is first concentrated in technological improvements and then followed by a period of technology productization; and (3) a concurrent model where scientific discovery in publications occurs in parallel with patenting. By analyzing corporate publication and patent activity across country and application lines, we find that, while graphene as a whole is experiencing concurrent scientific development and patenting growth, country- and application-specific trends offer some evidence of the linear and double-boom models.
中文摘要
石墨烯是一种由单层碳原子组成的新型纳米材料,由于其独特的性能,包括高强度、导电性和导热性、轻质性以及对各种应用的潜在好处,引起了人们的极大关注。石墨烯等科学发现的商业化本质上是不确定的,新技术的科学开发与企业行为者采用之间的滞后时间揭示了企业吸收知识和学习实施基于新技术的应用的能力。从这个角度来看,我们测试了三种不同的企业学习和活动模式的存在:(1)专利遵循科学发现的线性过程;(2) 双繁荣现象,企业(专利)活动首先集中在技术改进上,然后是一段时间的技术产品化;和(3)一个并发模型
NSTL主题领域
科学与技术
NSTL智库专题
材料
来源关键词
Graphene ; Commercialization ; Publication ; Patent ; Nanotechnology transfer
NSTL分类号
21
来源智库
Consortium for Science, Policy, and Outcomes (United States)
获取方式
馆藏
NSTL资源类型
期刊论文
NSTL唯一标识符
JA202305300000020ZX
加工单位 processInst
入库编号
CJ20230609JA000110

除非特别说明,本系统中所有内容都受版权保护,并保留所有权利。