Chemistry

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
0 Comments
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
0 Comments
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
0 Comments
The development of materials with high porosity has garnered attention in various industries due to their exceptional surface area and ability to adsorb chemicals. Porous materials, characterized by their low density and empty spaces within their structure, are ideal catalysts for chemical reactions and have attracted interest in fields such as photocatalysis and optoelectronics. Among
0 Comments
Ferroelectric polymers have emerged as a pioneering material in the field of high-performance motion control systems. Led by Penn State, a team of international researchers has recently developed a groundbreaking ferroelectric polymer that presents substantial potential as a motion controller or “actuator” in various applications. This article delves into the capabilities of this innovative material
0 Comments
In the face of growing concerns over antibiotic resistance, a team of international scientists, including researchers from Trinity College Dublin, have made significant progress in unraveling the mysteries of a crucial bacterial enzyme. Through their groundbreaking research, they have provided valuable insights that could potentially aid chemists in the development of new drugs to combat
0 Comments
In a groundbreaking development, scientists have achieved a major breakthrough in the field of molecular electronics. Through the discovery of a new material for single-molecule electronic switches, researchers have unlocked the potential to revolutionize the world of semiconductor chips. This innovative material possesses a unique ladder-type molecular structure that significantly enhances stability and conductivity. With
0 Comments
In a breakthrough study, researchers at the University of Wisconsin–Madison have shattered conventional wisdom in the field of materials science and engineering. Contrary to popular belief, shear bands, normally associated with material failure, can actually enhance the ductility of certain materials under specific conditions. Led by Izabela Szlufarska, a distinguished professor in the field, the
0 Comments
The protein tubulin plays a crucial role in cell structure and function, forming the main component of microtubules. Researchers from EPFL and the University of Geneva have made significant progress in understanding the mechanisms behind tubulin post-translational modifications (PTMs). By engineering tubulin with specific modifications, they have gained valuable insights into the interplay between different
0 Comments
Plastic food packaging has become a significant environmental issue, contributing to the growing plastic waste problem in landfills. In response to increasing concerns about the environment, researchers at The Chinese University of Hong Kong (CUHK) have made a breakthrough in developing an edible, transparent, and biodegradable material that shows great promise for food packaging applications.
0 Comments
RNA, a crucial biomolecule, serves various applications in environmental studies, from microbial community monitoring to the quantification of pathogenic viruses in water and wastewater systems. However, to harness the potential of RNA in these emerging technologies, it is crucial to understand its degradation rate under different conditions. Recent research conducted at Washington University in St.
0 Comments