{"id":1471776,"date":"2026-03-03T10:53:44","date_gmt":"2026-03-03T09:53:44","guid":{"rendered":"https:\/\/www.ie.edu\/insights\/?post_type=articles&p=1471776"},"modified":"2026-03-03T10:54:24","modified_gmt":"2026-03-03T09:54:24","slug":"a-dollar-of-science-does-not-always-travel-the-same-distance","status":"publish","type":"articles","link":"https:\/\/www.ie.edu\/insights\/articles\/a-dollar-of-science-does-not-always-travel-the-same-distance\/","title":{"rendered":"A Dollar of Science Does Not Always Travel the Same Distance"},"featured_media":1471781,"template":"","meta":{"_has_post_settings":[]},"schools":[],"areas":[534],"subjects":[416],"class_list":["post-1471776","articles","type-articles","status-publish","has-post-thumbnail","hentry","areas-research","subjects-business-and-finance"],"custom-fields":{"wpcf-article-leadin":["It\u2019s not \u201chow much science?\u201d - it\u2019s \u201cwhich science, and how transferable is it?\u201d Scientific trajectories act like invisible rails that steer corporate search, scale, and sustainability spillovers, write Marco S. Giarratana, Martina Pasquini, and Markus Simeth."],"wpcf-article-body":["Executives love a comforting formula: invest in advanced science, and innovation impact will follow. It is a neat story, especially in sustainability, where \u201cmore R&D\u201d is often treated as the default answer to complex problems. Yet in practice, a dollar spent on science does not always travel the same distance. Two firms can invest the same amount in R&D, but one builds a scalable capability that others reuse while the other produces high-performance improvements that remain locked inside a narrow niche.\r\n\r\nThe difference is not always about talent, capital, or even time-to-market. It can be about scientific trajectory: the underlying research path a firm chooses, the causal mechanisms it believes matter, and the vocabulary it uses to search for solutions. In other words, science does not just supply ideas \u2013 it shapes the map of where innovation can go. And some parts of that map are better at generating sustainable breakthroughs than others. This dilemma appears across industries, from batteries and AI to climate tech and advanced materials \u2013 wherever firms must decide not just how much science to pursue, but which scientific paths to follow.\r\n\r\nThe protein sector is a useful mirror for this problem. The world needs to feed more people while reducing emissions, land use, and water use. Yet traditional protein production through livestock is among the most resource-intensive parts of the food system. This tension generates a convergence of societal urgency and business opportunity: firms that innovate successfully in sustainable protein technologies can address a global challenge while building competitive advantage. The opportunity is enormous, but so is the risk of investing in the wrong scientific direction.\r\n\r\nWhen managers talk about science, they often treat it like a meter: more inputs (papers, partnerships, labs) should mean more outputs (patents, products, impact). But science can also be understood as a map, a framework that makes some problems easier to see and some solutions easier to reuse.\r\n\r\nWhen scientific knowledge is highly codified \u2013 clear mechanisms, stable concepts, shared language \u2013 it becomes easier for others to replicate, recombine, and scale. When knowledge is more application-bound, embedded in specific formulations, processes, and tacit know-how, it can still be valuable, but it travels less. That \u201ctravelability\u201d matters for sustainability, because sustainability gains usually require diffusion: capabilities spreading across firms, sectors, and supply chains.\r\n\r\nTo understand how protein innovation evolves, we analyzed patents in the USPTO\u2019s A23J subclass (proteins for foodstuffs) filed between 1990 and 2015 and linked them to upstream scientific language from academic food-science publications<\/a>. This allowed us to identify four recurring scientific trajectories:\r\n