We are enthusiastic to foster relevant new ideas and solution approaches.
Over time we thus have been incubating several products and spin-off companies, e.g.
We are using special ceramics. - You may ask, why do we see such a potential in it?
Typical antibiotics are of volatile nature; e.g. they are easily decaying with temperature. Plus the sad fact that numerous bacteria are increasingly insensitive to antibiotics, e.g. MRSA.
Alternative aproachtes basing on (nano) silver ions are thus mostly treated as "the last bullet" in a physicians reportoire against resitent bacteria. Copper ions have demonstrated that bacteria can grow into insensitivity against it. Thus silver is meant to be used with due dilligence and thus not fit for a wide-spread use.
The special ceramics used by us have show great results against MRSA and other bacteria. Moreover they have demonstrated their effect on viruses as well, including Influenza A (H1N1) and Bovine Corona Virus (BoCV).
Starting with a research project in 2014, this patented technology already allowed two new companies to launch successfully plus numerous commercial partnerships basing on these products.
Have you ever asked yourself, how to get rid of tiny particles like utra fine dust and particles (UFPs), allergenes and various sub-microscopic contaminants?
Well, the book says "use HEPA filters", but these systems are subject to clogging (dust piles up and plugs into the filter pores) and the preasure drop involved by the system gets close to a solid wall when it comes to nano particles. The clogged filters required exchange or de-clogging maintenance.
What about making the utra fine particles grow, so they can be extracted more easily e.g. using a lower grade filter.
Making UFPs grow sounds like magic? - The patented Separaptor technology does exactly this.
Activated carbon (AC) has a wide are of applications including environmental, industrial and medical or health care applications.
High quality activated carbon is thus valuable product. But production of AC is involving high energy consumption (high carbon footprint), high raw material consumption and due to the delicate nature of material processing the AC may be subject to toxic contaminants e.g. with PACs.
ThorSpin uses a game-changing new approach, involving mechano-chemistry processing to treat carbon materials.
The patented ThorSpin process uses less energy, can convert almost the complete raw material without losses and is free of the typical pyrolysis contaminants.