Bionetworks vs. nanonetworks: a comparison of diffusion rates of emerging technologies

S. Reid, J. Niosi, S. Ramani
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Abstract

This exploratory investigation offers evidence from biotechnology and nanotechnology sectors regarding the differential impacts of information flow rates, dispersion of networks and combination of progenitor sciences and technologies on technology diffusion rates. In recent years, enhanced rates of information flow have increased the ability for a greater overall number and diversity of foreign players to enter emerging technology development trajectories. At the same time, these trends are creating more dispersed networks with concomitant problems associated with information flow in such diffuse situations. Rates of diffusion of emerging technologies are also importantly affected by the number of scientific fields and generic technologies combined to create the new technology and the level of resultant complexity; higher levels of complexity can slow down diffusion rates. Further, at the country level, absorptive capacity is largely determined through institutions and their policies; however, in terms of enabling diffusion of technology to move effectively downstream from science to market, this requires social capabilities.
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生物网络与纳米网络:新兴技术扩散速度的比较
这项探索性调查提供了来自生物技术和纳米技术部门的证据,证明了信息流速率、网络的分散以及先祖科学和技术的结合对技术扩散速率的不同影响。近年来,信息流动速度的提高提高了外国参与者进入新兴技术发展轨迹的总体数量和多样性的能力。与此同时,这些趋势正在造成更加分散的网络,并伴随着在这种分散的情况下与信息流有关的问题。新兴技术的传播速度也受到创造新技术的科学领域和通用技术的数量以及由此产生的复杂程度的重要影响;更高层次的复杂性会减慢扩散速度。此外,在国家一级,吸收能力主要是通过机构及其政策决定的;然而,就使技术的扩散有效地从科学流向下游市场而言,这需要社会能力。
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