A solar emulsion evaporator built with graphene oxide and carbon nanotubes adapts to oil, salt, and microbes, maintaining clean water production in harsh conditions. (Nanowerk Spotlight) Freshwater ...

Wastewater from many industries, restaurants, and households, contains stable oil-water emulsions that are challenging to break apart. Membranes can do this separation without using chemicals or large ...

The ability to 3-D print liquid inks and soft materials—such as polymers, colloidal solutions, and even living cells—is useful for tissue engineering, prosthetics, and medical applications. A new oil ...

QPAC® poly(alkylene carbonate) copolymers are a unique family of innovative thermoplastics representing a true break-through in polymer technology. While traditional ...

From a technical standpoint, conventional emulsions can be understood as oil-in-water emulsions, whereby the continuous phase is water. Inverse emulsions are the opposite, for example, water-in-oil ...

It sounds like a party trick: Add water to the clear, licorice-flavored ouzo liquor, and watch it turn cloudy. This 'ouzo effect' is an example of an easy way to make highly stable emulsions -- or ...

Emulsions are formed when tiny droplets of one liquid are suspended within another liquid. A mixture of oil and water is a good example of an emulsion. It is not uncommon for foods that we eat to ...

QPAC ® poly(alkylene carbonate) copolymers are an exclusive range of innovative thermoplastics, which represent a real advancement in polymer technology. While ...