Gas separation is a critical process in many industrial applications, to either provide high purity gases or to capture harmful ones. Yet, many separation processes rely on energy.
Gas separation processes have a great impact on the current needs of human society including medical, environmental, energy and high-value chemicals necessities. Some of the most popular.
Gas separation plays an important economic and environmental role in a variety of applications and functions. The interest in advanced methods of gas separation continues to grow. The most popular.
Amidst the current global crisis, we are working hard on keeping up the pace of last year. We are all bound to our home office and will continue working from here. Fortunately, our CTO Gerald.
With the spread of the corona virus and the resulting respiratory diseases, the medical teams all over the world fight hard to save their patients. Providing oxygen to these patients is critical..
The specific characteristics of inert gases – e.g. they are almost non-reactive and non-flammable – make them perfect for application in lighting, welding, medical applications or diving gear..
Using porous nanomaterials shifts the catalytic yield of hydroformylation towards wanted end products, as the reaction will be altered within the pores of the material. Most commercial products –.
The importance of hydrogen as an energy carrier and tackling its storage challenges were briefly covered in our previous blog post. Now we take a step back to evaluate and understand the.
Depending on the application at hand, particle size can change the performance or even the applicability of metal-organic frameworks. Nanosized MOFs find applications in membranes or biomedical.
The commercial use of metal-organic frameworks has just kicked off, and they are often compared with commonly used activated carbon, silica or zeolites. Comparison goes until they reach the.