Waves of investment in new technology are often likened to gold rushes in their cycles of boundless enthusiasm, frenzied activity – and disappointment for the vast majority of people for whom things don’t quite pan out. Entrepreneurs bear the most risk in that they wager years of their lives (not to mention personal savings) on individual claims, whereas investors can spread their bets around in the hope that at least one promising property will make good. Even the certainty that a budding technology will change the world is no more help in making money than the certainty that there really is gold somewhere in them thar hills. The typical hundred dollars invested in Internet startups in 2000 would barely pay for a snail-mail stamp today. Clearly, transmuting raw hope into net profits requires investors and entrepreneurs to place extremely prescient and/or damn lucky bets on those rare companies that will actually convert cutting-edge research into commercially successful products.
Or does it? Brian Lim, founder and CEO of Santa Barbara, CA-based Atomate, believes he has found a unique way of capitalizing on the latest gold rush, nanotechnology. Rather than attempting to develop specific nanotech products, such as nanowires or nanomachines, Lim and his colleagues are selling fabrication systems to other nanotech researchers. “We’re selling the pans to the prospectors,” he says – not trying to do the prospecting.
Atomate’s “pans” are a bit more sophisticated than those of yore. Fabricating nanotech devices is intrinsically difficult and requires specialized machinery. “Nanotech researchers have been purchasing equipment designed to fabricate microchips on silicon and then customizing it for nanotechnology,” Lim explains. He and his team, which includes several experienced nanotechnologists, realized that they could provide a tremendous boost to researchers, many of whom operate on constrained university budgets, by producing equipment that’s already adapted for the nano world.
According to Lim, a researcher might spend $100,000 or more on a silicon fabrication machine and then invest another $50,000, plus several valuable months, modifying it before he or she could carry out any nanotech experiments. Instead, the researcher can purchase a ready-built system from Atomate and be up and running much more quickly for “about the price of a Volvo.”
Of course, the rapid evolution of nanotechnology requires the continual development and adaptation of fabrication systems as new processes are created, but Lim believes his products give customers a huge head start. Indeed, some customers are now coming back to Atomate with requests for specific modifications to their systems – another source of revenue for Atomate. These customers have decided that Atomate is best suited to manipulating the fabrication machinery, thus freeing their own researchers’ time and attention for actual experiments.
While Lim must protect his clients’ jealously guarded intellectual-property secrets, he believes that Atomate’s role as the industry’s “pan” provider enables him to accurately predict where nanotech is going and what fabrication machinery it will require. Like everyone in the industry, Lim awaits the breakthrough that will move nanotech from the research lab to the factory. When it appears, he plans to shift Atomate’s focus from low-cost research systems to full-scale factory fabricators.