Harald Rupp
Researchers have developed a 3D printing process that allows for a combination of both liquid and solid material in the finished process. Pictured shows the inside of the 3D-printed material (right), with a lattice structure (left) containing the added liquids.
However, for 3D printing to evolve, it must integrate more complex methods that combine several production steps. That is why we were looking for a way to integrate liquids directly into the material during the printing process,” Binder said in a press statement.
To achieve this goal, Binder, working with colleague Professor Harald Rupp married common 3D printing processes with traditional printing methods, such as those used in inkjet or laser printers. The new method adds liquids drop by drop in a specified location during the extrusion of the basic material, which allows them to be “printed” directly into the product as it’s forming, they said.
Researchers produce special nanoparticles and reveal their inner structure for the first time
New single-chain nanoparticles could be used in medicine or as nanoreactors in which chemical reactions take place
Tiny nanoparticles can be furnished with dyes and could be used for new imaging techniques, as chemists and physicists at Martin Luther University Halle-Wittenberg (MLU) show in a recent study. The researchers have also been the first to fully determine the particles internal structure. Their results were published in the renowned journal Angewandte Chemie .
Single-chain nanoparticles (SCNPs) are an attractive material for chemical and biomedical applications. They are created from just a single chain of molecules that folds into a particle whose circumference measures three to five nanometres. Because they are so small, they can travel everywhere in the human body and be used for a wide variety of purposes, says Professor Wolfgang Binder from the Institute of Chemistry a
Tiny nanoparticles can be furnished with dyes and could be used for new imaging techniques, as chemists and physicists at Martin Luther University Halle-Wittenberg (MLU) show in a recent study. The researchers have also been the first to fully determine the particles internal structure. Their results were published in the renowned journal
Researchers develop new combined process for 3D printing chemeurope.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from chemeurope.com Daily Mail and Mail on Sunday newspapers.
E-Mail
Credit: Harald Rupp / Uni Halle
Chemists at Martin Luther University Halle-Wittenberg (MLU) have developed a way to integrate liquids directly into materials during the 3D printing process. This allows, for example, active medical agents to be incorporated into pharmaceutical products or luminous liquids to be integrated into materials, which allow monitoring of damage. The study was published in
Advanced Materials Technologies .
3D printing is now widely used for a range of applications. Generally, however, the method is limited to materials which are liquefied through heat and become solid after printing. If the finished product is to contain liquid components, these are usually added afterwards. This is time-consuming and costly. The future lies in more complex methods that combine several production steps, says Professor Wolfgang Binder from the Institute of Chemistry at MLU. That is why we were looking for a way to integrate liquids directly into the material d