The University of Bath’s Department of Chemistry and Institute for Sustainability have made a groundbreaking discovery in the field of pharmaceutical production. By utilizing a compound found in pine trees and waste from the paper industry, scientists have found a sustainable way to produce two widely used painkillers, paracetamol and ibuprofen. This innovative approach addresses
Ultrafine particles, while small in size, have emerged as a critical concern in the study of air pollution. These minuscule pollutants, emitted by sources such as wildfire smoke, industrial activities, vehicle exhaust, and airplane emissions, can surpass the body’s natural defenses and transport toxins to various organs or deeply into the lungs. Recent research conducted
Quantum computing is an emerging field that has the potential to revolutionize the way we process information. As researchers strive to enhance the performance of quantum computers, a deeper understanding of crucial elements such as the nano Josephson Junction (JJ) becomes imperative. In a recent collaboration between the U.S. Department of Energy’s Ames National Laboratory
Researchers at the University of Alberta have made remarkable progress in the field of water decontamination by utilizing a highly unconventional material: chicken feathers. Through experimentation and innovation, they have successfully transformed keratin, a protein found in feathers, into an effective filter for removing heavy metals from water sources. This groundbreaking discovery has the potential
A recent study has shed light on the concerns of stakeholders involved in phosphorus management. These stakeholders, representing various sectors such as industry, agriculture, environment, and policy, express significant worries about the long-term sustainability of existing systems. Policymakers and decision-makers face intricate challenges as they strive to ensure ongoing access to phosphorus, a finite and
The field of quantum physics has long been fascinated with the Rydberg state, a highly excited Coulomb-bound state of electron-hole pairs. These states have been observed in various physical platforms such as atoms, molecules, and solids. One of the earliest discoveries of Rydberg excitons was made in the 1950s in the semiconductor material Cu2O. These
A groundbreaking study has recently brought to light the underestimated risks of harvest failures in various key food-producing regions worldwide. The research has alarming implications, highlighting the urgent need to confront the threat that climate change poses to our global food systems. As one of the leading contributors to greenhouse gas emissions, the food production
The concept of artificial intelligence (AI) has always been inspired by the intricate workings of biological systems. However, the implementation of “neuromorphic” networks on traditional computer hardware falls short in replicating the processing capabilities of the human brain. Despite the significant milestones achieved by neural-network models in various applications, such as image generation and cancer
In today’s digital age, online transactions have become the norm, replacing physical cash in our daily lives. However, this shift has raised concerns about the security of sensitive information. Customers are often required to trust unknown merchants with their credit card details or passwords, leaving them vulnerable to potential data breaches and fraudulent activities. To
For nearly half a century, physicists have been fascinated and perplexed by the unusual behavior of vibrations in glass at low temperatures. Unlike other solid materials, glass carries sound waves and vibrations in a unique and mysterious manner. The challenge lies in accurately understanding and calculating the propagation of sound in glass, as well as
Photosynthesis is a vital process that allows cells to convert light into energy. Central to this process are the light-harvesting proteins, which absorb photons and transfer their energy to produce sugar molecules. A recent study conducted by chemists at MIT has shed light on how the disorganized arrangement of these proteins enhances energy transduction efficiency.
Chemical gardens have long been a subject of fascination for chemists around the world. These vibrant and intricate structures, resembling coral formations, have sparked curiosity due to their unique growth patterns and mysterious properties. However, despite centuries of research, the underlying rules and processes governing the formation of chemical gardens have remained elusive. In a