Important Daily Facts of the Day

Indian researchers unveil water-resistant film to boost life of energy systems (GS Paper 3, Environment)

Why in news?

• Researchers at Shiv Nadar University have unveiled flexible and durable films that could help in harnessing clean energy and its conservation.

Details:

• The superhydrophobic film designed by them promises to enhance the efficiency and longevity of various engineering systems, including solar panels, flexible electronics, and optical equipment.
• The key challenge addressed by the scientists is the performance limitations imposed by atmospheric contamination, such as pollutants, salt-laden aerosols, and rain, which often lead to substantial functionality loss in these systems.
• The team's research focused on creating films that repel water and other liquids, protecting devices from environmental damage.

Key Highlights:

• Through a simple and eco-friendly biofuel-based flame treatment, the researchers successfully crafted superhydrophobic polydimethylsiloxane (PDMS) films.
• The treatment resulted in the formation of coral-like wrinkled morphologies with in-situ synthesised functionalised nano-silica particles.
• What sets these films apart is their exceptional water-repelling capabilities, boasting a water contact angle greater than 160 degrees, ensuring remarkable dewetting characteristics.
• The films also exhibited low hysteresis (less than 5 degrees) and sliding angles (less than 5 degrees), making them highly effective in resisting liquids, including blood.
• Hysteresis refers to the lag or delay in the response of a system to changes in the forces or parameters influencing that system. In the context of superhydrophobic films, low hysteresis is desirable.
• The film's adhesion with water is incredibly low, surpassing that of the famed Lotus leaf.

Unique feature:

• The secret to these films' exceptional performance lies in the Coral-like structures formed from agglomerated nano-silica particles, providing a negative capillary pressure.
• This unique feature results in extreme dewetting and low adhesion characteristics, making the films resilient in harsh physical and chemical environments.

Way Forward:

• The developed films demonstrated outstanding resistance, enduring more than 20,000 droplet impacts and over a year of weathering without severe damage.
• This breakthrough opens the door for the creation of non-wettable, self-cleaning structures, even those with intricate shapes.

IIT-M and Munitions India to develop smart ammo for 155mm artillery guns

(GS Paper 3, Defence)

Why in news?

• IIT-Madras and the Government-run Munitions India Limited (MIL) have partnered on developing 55mm Smart Artillery shells.
• It will be guided by the Indian constellation of NavIC (Navigation with Indian Constellation) satellites, formerly known as Indian Regional Navigation Satellite System (IRNSS). 

Key Highlights:

• IIT Madras, Department of Aerospace Engineering will be developing the smart ammunition, which will later be manufactured by Munitions India Limited, a Government-run firm engaged in the Production, Testing Research and Development and Marketing of a comprehensive range of ammunition and explosives for the Army, Navy, Air force and Paramilitary Forces. 
• The objective is to increase the accuracy of 155 mm shell within a Circular Error Probable (CEP) of 10 metres.
• At present, ammunitions developed in India have a CEP of 500 m. Another key goal is to increase the lethality at the terminal impact point. 

Salient features:

• Based on the specifications of this proposed artillery shell, it can be fired from 155mm artillery guns, without any changes in the gun system.
• Unlike conventional shells, it will have its control surfaces that will help in manoeuvrability-fin-stabilised, canard-controlled, guided shell. It is expected to have a minimum range of 8kms and a maximum range of 38km.
• This Smart shell also offers three modes of detonation, such as - point detonation, height of burst, delayed detonation. 

Way Forward:

• In two years, the Indian Army could get their hands on indigenously-designed and developed 155mm Smart Artillery shells that offer 50 times more accuracy than existing ones.