Disruptive technologies: Advances that will transform life, business, and the global economy

ALostArt

The relentless parade of new technologies is unfolding on many fronts. Almost every advance is billed as a breakthrough, and the list of “next big things” grows ever longer. Not every emerging technology will alter the business or social landscape—but some truly do have the potential to disrupt the status quo, alter the way people live and work, and rearrange value pools. It is therefore critical that business and policy leaders understand which technologies will matter to them and prepare accordingly.

Disruptive technologies: Advances that will transform life, business, and the global economy, a report from the McKinsey Global Institute, cuts through the noise and identifies 12 technologies that could drive truly massive economic transformations and disruptions in the coming years. The report also looks at exactly how these technologies could change our world, as well as their benefits and challenges, and offers guidelines to help leaders from businesses and other institutions respond.

We estimate that, together, applications of the 12 technologies discussed in the report could have a potential economic impact between $14 trillion and $33 trillion a year in 2025. This estimate is neither predictive nor comprehensive. It is based on an in-depth analysis of key potential applications and the value they could create in a number of ways, including the consumer surplus that arises from better products, lower prices, a cleaner environment, and better health.

Some technologies detailed in the report have been gestating for years and thus will be familiar. Others are more surprising. Examples of the 12 disruptive technologies include:

Advanced robotics—that is, increasingly capable robots or robotic tools, with enhanced “senses,” dexterity, and intelligence—can take on tasks once thought too delicate or uneconomical to automate. These technologies can also generate significant societal benefits, including robotic surgical systems that make procedures less invasive, as well as robotic prosthetics and “exoskeletons” that restore functions of amputees and the elderly.

Next-generation genomics marries the science used for imaging nucleotide base pairs (the units that make up DNA) with rapidly advancing computational and analytic capabilities. As our understanding of the genomic makeup of humans increases, so does the ability to manipulate genes and improve health diagnostics and treatments. Next-generation genomics will offer similar advances in our understanding of plants and animals, potentially creating opportunities to improve the performance of agriculture and to create high-value substances—for instance, ethanol and biodiesel—from ordinary organisms, such as E. coli bacteria.

Energy-storage devices or physical systems store energy for later use. These technologies, such as lithium-ion batteries and fuel cells, already power electric and hybrid vehicles, along with billions of portable consumer electronics. Over the coming decade, advancing energy-storage technology could make electric vehicles cost competitive, bring electricity to remote areas of developing countries, and improve the efficiency of the utility grid.

Advanced oil and gas exploration and recovery

3-D Printing

Autonomous, or near autonomous, vehicles

Cloud

Internet of Things

Automation of Knowledge Work

Mobile Internet

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