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Remote Collaboration Fuses Fewer Breakthrough Ideas

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  • Yiling Lin
  • Carl Benedikt Frey
  • Lingfei Wu

Abstract

Theories of innovation emphasize the role of social networks and teams as facilitators of breakthrough discoveries. Around the world, scientists and inventors today are more plentiful and interconnected than ever before. But while there are more people making discoveries, and more ideas that can be reconfigured in novel ways, research suggests that new ideas are getting harder to find-contradicting recombinant growth theory. In this paper, we shed new light on this apparent puzzle. Analyzing 20 million research articles and 4 million patent applications across the globe over the past half-century, we begin by documenting the rise of remote collaboration across cities, underlining the growing interconnectedness of scientists and inventors globally. We further show that across all fields, periods, and team sizes, researchers in these remote teams are consistently less likely to make breakthrough discoveries relative to their onsite counterparts. Creating a dataset that allows us to explore the division of labor in knowledge production within teams and across space, we find that among distributed team members, collaboration centers on late-stage, technical tasks involving more codified knowledge. Yet they are less likely to join forces in conceptual tasks-such as conceiving new ideas and designing research-when knowledge is tacit. We conclude that despite striking improvements in digital technology in recent years, remote teams are less likely to integrate the knowledge of their members to produce new, disruptive ideas.

Suggested Citation

  • Yiling Lin & Carl Benedikt Frey & Lingfei Wu, 2022. "Remote Collaboration Fuses Fewer Breakthrough Ideas," Papers 2206.01878, arXiv.org, revised Oct 2023.
    • Handle: RePEc:arx:papers:2206.01878
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    3. Macher, Jeffrey T. & Rutzer, Christian & Weder, Rolf, 2024. "Is there a secular decline in disruptive patents? Correcting for measurement bias," Research Policy, Elsevier, vol. 53(5).
    4. Narayanamurti, Venkatesh & Tsao, Jeffrey Y., 2024. "How technoscientific knowledge advances: A Bell-Labs-inspired architecture," Research Policy, Elsevier, vol. 53(4).

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