Aberrant enzyme activity drives many types of cancer and other human diseases. Traditional drugs targeting such enzymes face a variety of challenges. Here, researchers use a new small molecule “degrader” to destroy an enzyme involved in cancer.
It turns out that people with lung cancer may breathe out different molecules than people without. Scientists are figuring out which molecules to look for to diagnose cancer!
LEGO is lots of fun and can be used to create almost anything, from gigantic towers to intricate machines. But did you know LEGO can even be used to build tiny chemistry labs?
Researchers have developed a database that allows us to predict undiscovered structures based on chemical reactivity rules and existing structures. While still in early stages, this is a huge step towards successful structural prediction!
Researchers collaborating on the Curiosity Mars Rover mission have discovered organic matter on Mars – a crucial ingredient to life as we know it. Let’s take a deep dive into what they found, how they did it, and what the data really mean.
Researchers have developed a way to combine chemotherapy and radiation into one ultra effective treatment. Check out how these packages of drugs get activated at the tumor by X-rays!
We have been trained to be adaptive to our environment in our daily life. Same for chemists to train computers to model atoms. Let’s look at how chemists make functions adaptive to different situations!
The development of microbe-based, “green” fuel cells is hampered by unreliable methods for bacterial growth on conductive surfaces. Researchers are now one step closer to a strategy for coverage using DNA-based targeting!
Biological catalysts and inorganic catalysts each have their own advantages and it is sometimes difficult to choose one or the other. So why not combine them into a powerful hybrid catalyst? That’s exactly what the researchers did in this recent article from ACS Catalysis.
Carbon nanotubes have material properties straight out of a science fiction novel. Yet, it is still difficult to assemble carbon nanotubes into organized structures where the science fiction-like properties can really shine. Discover what researchers are doing to solve this problem!
Control at the atomic scale is being realized by researchers across the world through synthesis of quantum dot materials. Take a look at an overview of what makes these tiny particles so special.
Computational chemistry is much more than computers and chemistry! Let’s have a brief tour in the world of computational chemistry!
Enzymes are nature’s catalysts. But there are not enough enzymes for all the reactions in the world! How do chemists design enzymes? Let’s take a look!
Fake medical tests are a huge problem in many poorer countries. Let’s learn about a way to print erasable codes on these devices so they can’t be counterfeited!
Machine learning? Deep neural networks? Find out how advances in artificial intelligence could help scientists discover new materials.
Successful resistance to a viral infection requires the host to deploy incredibly intricate biological tactics that somehow selectively inhibit key processes in the viral lifecycle. In this paper, researchers delve deeper into the molecular mechanisms of one of such resistance mechanisms!
Nanowires are part of the future of smaller, smarter electronics. Here’s a interesting new method of making metal nanowires.
Catalysis is a common chemistry concept, but there are many intricacies involved. Check out some of these lesser-known facts!
Researchers have expanded the forensic analytical chemistry toolkit to include a model for Raman spectroscopy identification of blood donor age.
Although getting the common cold is not a nice experience, it is only a relatively minor misfortune for most people. But the consqeuences of a cold can be severe. This paper describes a significant step towards a cure!
The sea can sequestrate carbon dioxide from the atmosphere and some rocks can help to enhance this phenomenon! But which ones? and how?
Rub a ruler with a wool and hold it towards paper bits, then you’d find the ruler attracts papers. This may sound a common sense to you – the two surfaces have opposite charges.
But now, researchers find that not all materials behave the same and the reason is still a mystery.
Let’s take a look at the charges that challenges scientists!