A Simple Secure Coordination Platform for Collective Action

A Simple Secure Coordination Platform for Collective Action We are pleased to announce the winner of the 2019 Foresight Edition of theĀ Incentive Prize on Incentives:   A Simple Secure Coordination Platform for Collective Action I propose a simple, streamlined, and secure platform for enabling coordinated collective action and for revealing hidden but shared preferences. Its… Continue reading A Simple Secure Coordination Platform for Collective Action

Our next Seminar: Artificial General Intelligences & Corporations @Internet Archive

Seminar on Artificial General Intelligences & Corporations hosted byĀ Foresight Institute@ Internet Archive Click here to access the ticket sale. Even if we don’t know yet how to align Artificial General IntelligencesĀ with our goals, we do have experience in aligning organizations with our goals. Some argue corporations are in fact Artificial Intelligences – legally at least… Continue reading Our next Seminar: Artificial General Intelligences & Corporations @Internet Archive

Accelerate your work in 2018: Fellowship, Prizes, Workshop

Weā€™re thrilled to open up applications for the 2018 Foresight Fellowship, Feynman Prizes and Student Award, and Spring workshop starting now!   Ā  The 2018 Foresight Fellowship After the excellent strides by our inaugural class of 2017 Foresight Fellows, we are glad to continue the Foresight Fellowship in 2018 to help committed change-makers create the… Continue reading Accelerate your work in 2018: Fellowship, Prizes, Workshop

Unrelated de novo enzyme replaces essential enzyme in cell

The first proposal of a path from then current technology to the ability to fabricate complex materials and devices by placing the atoms where you want them was made by Richard Feynman in 1959: “There’s Plenty of Room at the Bottom“, but see also this series “Feynman Path to Nanotechnology“. The second proposal to achieve… Continue reading Unrelated de novo enzyme replaces essential enzyme in cell

2015 Feynman Prize winner named 2018 Australian of the Year

It is always a pleasure when those whose work toward Feynmanā€™s goal for nanotechnology—molecular manufacturing, defined as the construction of atomically-precise products through the use of molecular machine systems—whom we have recognized with a Foresight Institute Feynman Prize are subsequently also recognized by the wider community for the importance of their contributions. For example, Sir… Continue reading 2015 Feynman Prize winner named 2018 Australian of the Year

Ultrafast DNA robotic arm: A step toward a nanofactory?

Ultrafast molecular machines made using DNA nanotechnology have now been demonstrated. Over the past several years molecular machines made using DNA nanotechnology, especially the scaffolded DNA origami technology, have grown more complex and more functional (see, for example, here, here, here, and here). Long-time Foresight member Dr. Robert P. Meagley writes to point out that… Continue reading Ultrafast DNA robotic arm: A step toward a nanofactory?

Design of hyperstable constrained peptides

Protein design has been one of the major paths from current fabrication technology toward the goal of general purpose, high-throughput atomically precise manufacturing since Foresight co-founder Eric Drexler proposed it in 1981. It also produced some of the earliest promising results. Although de novo protein design was at first slow, progress has accelerated since David… Continue reading Design of hyperstable constrained peptides

Changing the world with a nanofabricator that could make anything

The Foresight Institute was founded in 1986 on a vision presented by Eric Drexler in which the ultimate manufacturing technology uses a machine termed a nanofactory or nanofabricator to provide atom-by-atom control of the manufacturing process for complex objects, both large and small. Although initially controversial, this vision has been increasingly accepted over the past… Continue reading Changing the world with a nanofabricator that could make anything

Mechanical communication in a rotaxane molecular machine

Mechanically interlocked molecules (MIMs), such as rotaxanes and catenanes, provide a fertile opportunity to study some of the complexities of large biological systems of molecular machines, composed of large protein molecules, with small molecular machines composed of small organic molecules containing components that can move relative to each other in response to external control. The… Continue reading Mechanical communication in a rotaxane molecular machine

Funding announcements for Atomically Precise Manufacturing

Longtime Foresight member, and since October 2012 Technology Manager, Advanced Manufacturing Office, U.S. Department of Energy, David Forrest passes along these funding announcements about new opportunities at DOE: Those of you in the Atomically Precise Manufacturing community should be aware of new funding opportunities: ARPA-E The U.S. Department of Energy (DOE) today [Dec. 13, 2017]… Continue reading Funding announcements for Atomically Precise Manufacturing

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