$100,000 grants for 20 entrepreneurs under 20 years to develop their dreams

Apply by December 31 for one of 20 $100,000 grants offered by the Thiel Foundation to those under 20 to develop their entrepreneurial dreams.

Testing and improving scaffolded DNA origami for molecular nanotechnology

In two different sets of experiments a German research group has shown that scaffolded DNA origami can be used to assemble complex structures with precise sub-nanometer positional control, and that constant temperature reaction can greatly increase yields and decrease production times.

Two types of artificial muscle from nanotechnology

One research group working with rotaxanes and another group working with carbon nanotubes have provided two very different solutions to the problem of producing motion via artificial muscles at different scales from the nano to the macro.

Optimal bond loads in designing molecular machines

A study of a biological molecular machine has shown that the machine functions most effectively when it uses chemical bonds just barely strong enough to survive the power stroke of the machine.

Arbitrarily complex 3D DNA nanostructures built from DNA bricks

A set of 32-nucleotide single strand DNA bricks was designed so that each can interact independently with four other DNA bricks so that sets of hundreds of bricks can self-assemble into arbitrarily complex 25-nm 3D shapes, each comprising 1000 8-base pair volume elements.

New strides in understanding mechanochemical reactions

New time-resolved, high-energy Xray studies of mechanochemical (ball milling) reactions take another step toward reducing the gap between current and future machine-phase chemistry.

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