Photo by Jan Kopřiva on Unsplash
Researchers use ultra-small graphene particles to develop a new soil moisture sensor
Photo by Jan Kopřiva on Unsplash
Researchers use ultra-small graphene particles to develop a new soil moisture sensor
Researchers at the Indian Institute of Technology (IIT) Roorkee, India, and Kyoto University, Japan, have designed a machine-learning algorithm to identify the grade of glioma with high accuracy.
A computer based model of neurons in the urinary bladder
A woman cooking food using improved cookstoves [Image credits: Udaipur Urja Initiatives]
Snapshot of simulation showing two black holes colliding with each other. [Image Credits: Wikimedia Commons]
Astronomers detect gravitational waves from the merging of neutron stars and black holes, but no electromagnetic waves.
In a recent study, a team of international researchers have analysed how defects in hexagonal boron nitride can help in boosting the performance of electronic devices.
Researchers from the Indian Institute of Technology Bombay (IIT Bombay) seem to have a technological solution to this problem. Led by Prof Maryam Shojaei Baghini, researchers from IIT Bombay and Gauhati University, have designed a robust, accurate and affordable soil moisture sensor using graphene oxide.
In a new study, researchers devise a unique way to observe the process of devitrification under a microscope, in real-time.
Researchers from the Indian Institute of Technology Bombay (IIT Bombay), National Centre of Biological Sciences (NCBS) Bengaluru, Anna University, Chennai and ETH, Zurich uncover the molecular events that lead up to the formation of protein clusters commonly seen in Parkinson’s disease.
A team of scientists from IIT Bombay have recently proposed a novel setup to carry out quantum information processing at room temperatures, using a stack of specially designed layered materials.