A breakthrough study reveals carbyne's unique vibrational states within carbon nanotubes, enhancing its potential for ...

Researchers used Raman spectroscopy, theory, and machine learning to explain puzzling vibrational states in carbon chains and ...

A groundbreaking study by IIT-Indore identifies how different COVID-19 variants impact the human body, paving the way for ...

IIT Indore and IIIT Allahabad's joint study reveals how COVID-19 variants impact the body, offering vital insights for long ...

The process spectroscopy market is projected to grow significantly, from 21,552.6 million in 2025 to 45,610.1 million ...

For the design of future materials, it is important to understand how the individual atoms inside a material interact with ...

Airborne microplastics and nanoplastics are increasingly detected in urban environments, with evidence linking inhalation ...

This research was led by Dr. Hem Chandra Jha from IIT Indore and Dr. Nirmal Kumar Mohakud from KIMS Bhubaneswar, with support ...

Researchers have resolved a puzzling vibrational phenomenon that has baffled the scientific community for years, after ...

How spectroscopic sensors are making forensic drug analysis faster, more accurate, and field-ready—with help from AI and nanotech.

Raman spectroscopy is a branch of vibration spectroscopy that is capable of probing the chemical composition of materials. Recent advances in Raman microscopy have significantly added to the range ...

Indore: A study by the Indian Institute of Technology, Indore, ((IIT-I) in collaboration with top Indian institutions, ...