Here is a reality check. Polyolefins represent a global market approaching $370 billion, growing at over 5 percent annually.1,2 They make up nearly half of all plastics consumed in Europe.3 By 2034, global production is expected to hit 371 million tons.4 Yet in the European Union’s Clean Industrial Deal — a €100 billion strategy for industrial competitiveness — polyolefins receive barely a mention.4
This represents a profound strategic miscalculation. While policymakers focus on securing access to exotic critical materials like lithium and cobalt, they overlook the fact that polyolefins are already critical materials— they simply happen to be abundant rather than scarce. In the infrastructure-intensive clean energy transition ahead, abundance is not a weakness; it is the ultimate strategic advantage.
While policymakers focus on securing access to exotic critical materials like lithium and cobalt, they overlook the fact that polyolefins are already critical materials.
The EU’s REPowerEU plan calls for 1,236 GW of renewable capacity by 2030 — more than double today’s levels.4 Every offshore wind farm, solar array and electric grid connection depends on polyolefins. They insulate cables, protect components and form structural parts of turbines and solar panels. Every solar panel relies on polyolefin elastomers to protect its inner workings for up to 30 years, even in harsh weather.8 And every grid connection depends on polyethylene-insulated cables to carry electricity efficiently across long distances. 7
Multiply these requirements across thousands of installations, and the strategic importance of polyolefins becomes undeniable. Yet, currently, the policy framework treats these materials as afterthoughts, focusing instead on the relatively small quantities of rare elements in generators and inverters while ignoring the massive volumes of polyolefins that make the entire system possible.
Beyond energy: the hidden dependencies
The strategic importance of polyolefins extends far beyond energy infrastructure. As one example, modern medical systems depend fundamentally on polyolefin materials for syringes, IV bags, tubing and protective equipment.
