Michael Malone has a decent list of technologies.
I would include
* Factory mass produced skyscrapers
* Spacex and reusable low cost rockets
* Energy breakthroughs (different forms of nuclear fusion)
* Robotics – robotic cars
* Other mundane singularity technology
The fracking technology that is making available vast new sources of recoverable oil and natural gas in North America is one such breakthrough. But all across the commercial and industrial landscape, there are exciting developments:
Nanoculture: One of the truths of tech is that revolutions take longer than predicted, but they arrive sooner than we are prepared for them. That is the case with nanotechnology, the hot new science story of a decade ago.
Though it has largely disappeared from the front pages, nanotech is only now coming into its own. Breakthrough medicines; genetic research; new materials such as graphene (a lattice-sheet form of carbon used for everything from filters to computer chips); molecular electronics (extreme miniaturization, thus super-small sensors and other devices); and quantum computing (small, superfast supercomputers) have all been announced in recent months. Indeed, the range of emerging applications for nano materials is so wide-ranging and important that, together, they suggest an impending turning point in high tech as important as silicon and integrated circuitry were half a century ago.
Cloud Crowd: In the world of information technology, the big story these days is the shift of data management from largely in-house computing centers to rented, easily scalable computing and storage from anonymous servers located somewhere out in the Internet. Much of this shift, driven by leading providers such as Amazon, is already well under way, rapidly driving down costs and making information management much more affordable both for industry and, increasingly, consumers.
This in turn has kicked off a true revolution in what is being called “big data.” Big data is the application of all of this new computing power to reach beyond the individual application of mass information to the mass application of individual data—for instance, by tracking a billion sensors in real time to monitor weather across a continent. It could mean capturing every step in the path of every shopper in a store over the course of a year, or monitoring every vital sign of a patient every second for the course of his illness.
Big data offers measuring precision in science, business, medicine and almost every other sector never before possible.
Printing Dreams: Three-dimensional printing is a manufacturing technology that creates specific objects from buildings to machine components, and even human organs, either by laying down layers of material or carving away from a block of existing material. It’s been around for several years but will soon influence everyday life.
Using new materials such as molten polymers and metal powders, highly focused lasers and, increasingly, nanotech, 3-D printing is an incredibly powerful design and modeling tool. Because it offers the potential for the same economies at any volume, this technology, especially when it gets bolted to big data and nanotech, rewrites the very notion of economies of scale. It could transform manufacturing, eliminating the current cost advantage enjoyed by developing countries and bringing jobs back to the U.S.
You can already find hundreds of consumer products, from furniture to jewelry, created with 3-D printing. Less obvious are the thousands of gears, motors and other industrial components that are now custom-fabricated this way.
Handheld Diplomas: The discrepancy between the cost of university tuition and the return on that investment for most students grows every year. As students, increasingly priced out of traditional education, begin to abandon the college path, colleges and universities will have no choice but to pursue them—with ever-greater numbers of virtual courses (and eventually degrees)—on laptops, smartphones and tablets.
Self-Health: While Washington, the national media and the general public focus on draconian responses to the rising costs of health care, for-profit businesses are busy inventing small, affordable solutions. For example, there are now more than 12,000 new health-care apps available from independent developers for the iPhone and iPad. Examples includes the iTriage, which lets users check their own symptoms and find a nearby health provider, and iBGStar, a blood tester for diabetics that connects to the iPhone and lets users sync and manage information from test readings.
Brian Wang is a Futurist Thought Leader and a popular Science blogger with 1 million readers per month. His blog Nextbigfuture.com is ranked #1 Science News Blog. It covers many disruptive technology and trends including Space, Robotics, Artificial Intelligence, Medicine, Anti-aging Biotechnology, and Nanotechnology.
Known for identifying cutting edge technologies, he is currently a Co-Founder of a startup and fundraiser for high potential early-stage companies. He is the Head of Research for Allocations for deep technology investments and an Angel Investor at Space Angels.
A frequent speaker at corporations, he has been a TEDx speaker, a Singularity University speaker and guest at numerous interviews for radio and podcasts. He is open to public speaking and advising engagements.