Features: Magazine | Literary Review | Life | Metro Plus | Open Page | Education Plus | Book Review | Business | SciTech | Friday Review | Young World | Property Plus | Quest | Folio |

Molecular keypad lock

A TEAM of scientists at the Weizmann Institute of Science has created a molecule that can function as an ultra-miniaturised version of a keypad locking mechanism.

Keypad locks allow an action to take place only when the right password is entered: a series of numbers punched in a pre-set sequence.

Entering the sequence 2+3+4 will yield the same result as 3+4+2 on a calculator, but a keypad lock set to one password (234) will not open for the other (342).

Fluorescent probes

The molecule, synthesised in the lab of Prof. Abraham Shanzer , is composed of two smaller linked units — fluorescent probes — separated by a molecular chain to which iron can bind, according to a Weizmann Institute of Science press release.

One of these probes can shine bright fluorescent blue and the other fluorescent green, but only if the surrounding conditions are right.

These conditions are the keypad inputs: Rather than the electric pulses of an electronic keypad, they consist of iron ions, acids, bases, and ultraviolet light.

Logic gates

Shanzer and his group have demonstrated in the past that such molecules can be used as logic gates, such as those that form the basis of computer operations.

As opposed to electronic logic gates, in which electrical switches flip ON and OFF, the molecules, with various combinations of chemical and light inputs, can switch between colours and light intensities to perform arithmetic calculations.

The scientists found that by controlling the opening rate of the logic gate within the reaction time frame, they were able to produce different, distinguishable outputs, depending on the input order.

By adding light energy, which also influences the molecules' glow, they were able to produce a molecule-size device that lights up only when the correct chemical `passwords' are introduced.

Shanzer believes this example of a molecular keypad lock — the first of its kind — will lead to inventions in other areas such as information security and even medicine. "Faster and more powerful molecular locks could serve as the smallest ID tags, providing the ultimate defence against forgery."

`Smart' diagnosis

In the future, molecular keypads might prove valuable, as well, in designing `smart' diagnostic equipment to detect the release of biological molecules or changes in conditions that indicate disease.

OUR BUREAU

Printer friendly page  
Send this article to Friends by E-Mail