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.

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. 

New design in thermoelectric devices can increase both output power and efficiency

A significant problem in electronic devices is the generation of heat during their operation. This phenomenon not only leads to the wastage of electric power but can also damage the device. Thermoelectric materials, which convert heat to electricity and vice versa, can be used to turn the generated heat back into electricity, thereby saving power and avoiding overheating of the device.

Artificial intelligence (AI) and machine-learning (ML) approaches are the present-day buzzwords finding applications in a host of domains affecting our lives. These approaches use known datasets to train and build models that can predict, or sometimes, make decisions about a task. In one such case, researchers at the Indian Institute of Technology Bombay (IIT Bombay), Mumbai, have in a recent study, developed ML approaches using molecular descriptors for certain types of catalysis that could find use in several therapeutic applications.

Researchers from IIT Bombay propose cost-effective techniques of making microcontact printing stamps to print protein and grow cells.

Nanomaterials are revolutionising the way we do things with applications in medicine, electronics and biocompatible materials, to name a few. Scientists are studying various nanoforms of carbon—nanotubes, nanocones, nanohorns, two-dimensional graphene and even carbon onions! Now, researchers from the Indian Institute of Technology Bombay have added a new form to this list called nano carbon florets. These nano-sized florets, shaped like marigold flowers, have much more than just good looks to flaunt; they can help keep the environment clean by removing harmful heavy metal pollutants from industrial effluents. In a study published in the journal ACS Applied Nano Materials, Prof C Subramaniam and his team from the Department of Chemistry have designed nanocarbon florets that can remove up to 90% of pollutants containing arsenic, chromium, cadmium and mercury.

Researchers show that the shape of dried paint or ink deposit is related to the concentration and size of particles in these colloids.

Ever wondered why we use only specific inks for the inkjet printer? Why not any random dye? The wrong ink may result in non-uniform and patchy printing. Printing inks are colloids—tiny solid particles suspended in a liquid. The size and the concentration of the solid particles in ink specified for printers are designed to deposit uniformly on paper.

Researchers from the Indian Institute of Technology Bombay (IIT Bombay) proposes an improved additive manufacturing method to repair damaged industrial components for the sustainable growth of the industry.