Categories: Tech

Indian scientists develop electronic nose to detect poisonous gas in sewers & swamps

<p>
Indian scientists have developed an “electronic nose” that can detect the poisonous hydrogen sulphide (H2S) gas produced from swamps and sewers. The new organic electronic device consists of biodegradable polymer and monomer, according to a statement issued by the Department of Science and Technology. Apart from being poisonous H2S is also highly corrosive and flammable.</p>
<p>
Hydrogen Sulphide is the primary gas produced from the microbial breakdown of organic matter in the absence of oxygen, and this  necessitates easy detection of its emission from sewers and swamps. Responding to this challenge, scientists from the <strong>Centre for Nano and Soft Matter Sciences</strong> (CeNS), Bangalore, an autonomous institute of the government’s <strong>Department of Science & Technology</strong>, in collaboration with their counterparts from Saudi Arabia, have developed an exceptionally sensitive and selective H2S Gas sensor developed by impersonating the neuron responsible for identification of airborne molecules or olfactory receptor neuron (ORN).</p>
<p>
The impersonation of ORN with the help of an organic electronic device consisting of biodegradable polymer and monomer under Dr. Channabasaveshwar Yelamaggad from CeNS and Prof. Khaled N. Salama, Sensors lab, Advanced Membranes, and Porous Materials Center, King Abdullah University of Science and Technology (KAUST), Saudi Arabia has been published in the journals ‘Materials Horizon’ and ‘Advanced Electronic Materials’ recently.</p>
<p>
The fabricated sensor consists of a heterostructure consisting of two layers – the top layer a monomer and is realized with a novel chemical tris, which is both porous and contains H2S specific functional groups, and the bottom layer is the active channel layer which plays a key role in altering the current and mobility of charge carriers.</p>
<p>
Thus the synergistic combination helps to pre-concentrate the H2S molecules, initiate an acid-base chemical reaction, and thereby brings a change in the majority carriers (holes) of the channel region in the device. The capacitance sensor (a sensor that detects nearby objects by their effect on the electrical field created by the sensor) developed by the scientists showed an excellent sensitivity in detecting H2S gas with an experimental limit of detection of around 25 parts per billion. It also has high ambient stability of around 8 months without compromising sensing performance.</p>

IN Bureau

Recent Posts

Outdated infrastructure and transformer failures worsen electricity shortages in PoGB

The region of Pakistan-occupied Gilgit-Baltistan (PoGB) is enduring an escalating electricity crisis that continues to…

2 hours ago

Uyghur educational activist dies in custody of Chinese authorities

An Uyghur intellectual and education advocate, who was detained the night before his daughter's wedding…

5 hours ago

Create data-rich platform to benefit investigation officers: Amit Shah to NCRB

Union Home Minister Amit Shah has instructed the National Crime Records Bureau (NCRB) to develop…

5 hours ago

Brazil:163 workers rescued from “slave” like conditions from Chinese EV company BYD

Brazilian authorities have rescued 163 workers from conditions similar to "slavery" at a construction site…

6 hours ago

Water crisis worsens in PoJK as natural springs dry up

The water crisis in Pakistan-occupied Jammu and Kashmir (PoJK) has reached alarming levels as natural…

6 hours ago

UK House of Lords members express concern over China’s human rights violations in Tibet

On the 40th anniversary of the Sino-British Joint Declaration, members of the UK House of…

6 hours ago