Researchers at INM have combined a new self-assembling nano ink with an imprint process to create flexible conductive grids with a resolution below one micrometer. Your Contact Press and Public Relations: Dr. Carola Jung [email protected] Phone: +49681–9300-506 Your expert: Dr. Tobias Kraus Head Structure Formation Deputy Head InnovationCenter INM [email protected] Phone: +49681–9300-389.
Posted in terrorism
Techie recruitment on the rise. I wonder how much kidnapping threats for certain tech talent will also increase.
Today’s jihadists rely heavily on the Internet, and their defence systems are increasingly shifting towards digital mediums.
Jihadist groups like ISIS have stepped up their use of more secure technologies to accomplish their goals – ranging from propaganda dissemination and recruitment to launching attacks.
This is according to a recent report by Flashpoint, a deep and dark Web data and intelligence firm, titled “Tech for Jihad: Dissecting Jihadists’ Digital Toolbox”.
Disturbing.
Munich killer David Ali Sonboly bought the gun used in his rampage on the dark web and had been planning the attack for a year.
German police said the Glock 17 pistol used by the 18-year-old to kill nine people had its serial number scratched off but appeared to have originated in Slovakia and had been reactivated.
Police confirmed Sonboly had lured his victims to a shopping centre McDonalds using a fake Facebook account but said the victims — most of them teenagers — were not classmates of the gunman.
Genie out of the bottle.
A new guide into 3D printing rights and responsibilities has been launched to explain what consumers need to know before printing in 3D, including the potential risks in creating and sharing 3D printable files, and what kinds of safeguards are in place.
The website “Everything you need to get started in 3D printing” was developed by staff at the University of Melbourne in response to the growing number of users keen to find, share, and create 3D printed goods online.
A team from the School of Culture and Communications at the University of Melbourne designed the website which includes a scorecard for various 3D printing sites, as well as some useful tips for those getting started in the 3D printing world.
Posted in 3D printing, 4D printing, biotech/medical
Future Science Group (FSG) today announced the publication of a new article in Future Science OA looking to identify and define key terms associated with bioinks and bioprinting.
The use of 3D printing technologies for medical applications is a relatively new and rapidly expanding field, and is being approached in a multi-disciplinary manner. This has led to overlapping and ambiguous definitions within the field as a whole, and confusion over some terms, for example the prefix of ‘bio-‘. This new piece from William Whitford (GE Healthcare Life Sciences, USA) and James B. Hoying (Advanced Solutions Life Sciences, USA) introduces common definitions for 3D bioprinting-related terms, putting them into context. Terms defined within the article include 3D and 4D printing, bioadditive manufacturing, biofabrication, biomanufacturing, bioprinting, biomimetic printing and bioinks, among others.
“Additive manufacturing has transformed our approach to production in many ways,” notes Whitford. “There is now rapid development in the bioresearch, diagnostic and therapeutic applications for 3D printing. It’s difficult to even keep abreast of the number and types of relevant printing technologies, applications and vocabulary. We here identify some of the terms recently coined in this arena.”
Many folks are not aware that one of the early detections of GBM is through a person’s weakened eyesight as well as Ophthalmologist examinations.
The retina is essentially part of the brain. Studying them led researchers one step closer to understanding how the brain processes stimuli.
There is a genetically transmitted disease that causes the eyeballs to twitch back and forth, and it’s called Nystagmus. It impacts 1 in 1,500 men. Notably, it has been recently discovered that the twitching is caused by the miscalculations done by the retinal neurons in converting visual stimuli into electrical signals.
Now, rabbits are helping us figure out how this disease operates (and could be fixed).
