Nanotechnology Now – Press Release: Graphene nanotubes revolutionize touch screen use for prosthetic hands


Home > Press > Graphene nanotubes revolutionize touch screen use for prosthetic hands

Abstract:

The use of graphene nanotubes in fingerstalls made of electrically conductive silicones allowed young scientists from Motorica to make functional prosthetic hands that can interact with touch screens. The cost of cyber prostheses with such functions is 10 to 15 times lower than that of the nearest comparable solutions priced up to $30.000.

Graphene nanotubes revolutionize touch screen use for prosthetic hands


Luxembourg | Posted on August 3rd, 2021

Today, over 1.5 million handless people live worldwide. According to the World Health Organization, only 1 out of 10 people without hands in the world receives necessary prosthetics, and in developing countries, this figure is down to only 5% of all those in need. “A prosthesis should not be an expensive medical product manufactured at a small scale, but should rather become an affordable wearable electronic gadget just like a smart watch or a smart phone. We do more than just restore the functionality of the hand: we expand it,” says Vasiliy Khlebnikov, Co-Founder and Chief Development Officer at Motorica, a Russian developer and manufacturer of functional “cyber hands.”

A range of the company’s innovative products includes a prosthetic hand providing the ability to operate touch screens. This function was made possible due to fingerstalls made of electrically conductive silicone containing OCSiAl’s TUBALL graphene nanotubes, which can transmit electrical currents from the human body. These fingertips are being installed on body-powered and bionic prostheses in their basic configuration. This technology is effective for all types of modern touch-screen displays.

“More sophisticated and expensive technologies developed for bionic prostheses are available on the market today, where electrical current is generated using internal electronic circuits and sent to a fingerstall. We use electrically conductive silicone, which solves this problem without an additional current source. At a customer’s request, we can manufacture a fingerstall with a touch-screen function for all fingers of the prosthesis, but the index finger or little finger is typically enough,” said Ilya Chekh, Co-Founder and General Director of Motorica.

The scope of application of graphene nanotubes expands further. Flexible and ultra-strong graphene nanotubes resemble a long human hair in their shape; however, they are 50,000 times thinner than a hair. Due to such a unique morphology and characteristics, graphene nanotubes impart a new combination of properties to materials. In addition to silicones, they are used in dozens of other polymers and electrochemical current sources.

####

About OCSiAl Group
OCSiAl is the largest manufacturer of graphene nanotubes. The company’s capacity accounts for 97% of the world’s production capacity of this unique material. Today, OCSiAl employs over 420 people in 20 countries. More than 70 scientists are engaged in research and development in the company. More than 1,500 companies in the world are testing OCSiAl nanotubes and develop new products with them.

For more details visit: tuball.com and ocsial.com

PR contacts:

About Motorica LLC

Motorica LLC develops and manufactures traction and bionic prosthetic hands and arms for children and adults, and generates an ecosystem for users of various rehabilitation devices. Since 2016, the company has manufactured more than 2,600 prostheses for 1,500 people in 12 countries, including unique prosthetics for children who were previously turned down due to the complexity of the injury because no suitable solutions were available.

For more details visit: https://global.motorica.org/

PR contacts:

For more information, please click here

Contacts:
Anastasia Zirka
Senior PR & Advertising Manager
OCSiAl Group
+7 913 989 9239

Copyright © OCSiAl Group

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:
Delicious
Digg
Newsvine
Google
Yahoo
Reddit
Magnoliacom
Furl
Facebook

News and information

Verizon and Zurich Instruments join Q-NEXT national quantum science center August 6th, 2021

Mixing a cocktail of topology and magnetism for future electronics: Joining topological insulators with magnetic materials for energy-efficient electronics August 6th, 2021

Controlling chaos in liquid crystals, gaining precision in autonomous technologies August 6th, 2021

NIST’s quantum crystal could be a new dark matter sensor Peer-Reviewed Publication August 6th, 2021

Breathing new life into fuel cells August 6th, 2021

Display technology/LEDs/SS Lighting/OLEDs

Controlling chaos in liquid crystals, gaining precision in autonomous technologies August 6th, 2021

Removing the lead hazard from perovskite solar cells July 16th, 2021

Nanotech OLED electrode liberates 20% more light, could slash display power consumption: A five-nanometer-thick layer of silver and copper outperforms conventional indium tin oxide without adding cost June 29th, 2021

Graphene/ Graphite

Daikin Industries becomes OCSiAl shareholder July 27th, 2021

Primers with graphene nanotubes offer a new solution for electrostatic painting of automotive parts July 16th, 2021

Possible Futures

Quantum computing enables unprecedented materials science simulations: Multi-institutional team provides a foundation for unraveling the mysteries of magnetic materials August 6th, 2021

Verizon and Zurich Instruments join Q-NEXT national quantum science center August 6th, 2021

Mixing a cocktail of topology and magnetism for future electronics: Joining topological insulators with magnetic materials for energy-efficient electronics August 6th, 2021

Controlling chaos in liquid crystals, gaining precision in autonomous technologies August 6th, 2021

Nanotubes/Buckyballs/Fullerenes/Nanorods

Daikin Industries becomes OCSiAl shareholder July 27th, 2021

Conductive, durable coatings with graphene nanotubes now available to the Turkish market June 3rd, 2021

Thin is now in to turn terahertz polarization: Rice lab’s discovery of ‘magic angle’ builds on its ultrathin, highly aligned nanotube films May 20th, 2021

Optically active defects improve carbon nanotubes: Heidelberg scientists achieve defect control with a new reaction pathway April 9th, 2021

Announcements

Verizon and Zurich Instruments join Q-NEXT national quantum science center August 6th, 2021

Mixing a cocktail of topology and magnetism for future electronics: Joining topological insulators with magnetic materials for energy-efficient electronics August 6th, 2021

Controlling chaos in liquid crystals, gaining precision in autonomous technologies August 6th, 2021

NIST’s quantum crystal could be a new dark matter sensor Peer-Reviewed Publication August 6th, 2021

Human Interest/Art

JEOL Announces 2020 Microscopy Image Grand Prize Winners January 7th, 2021

No ink needed for these graphene artworks: Artist employs Rice University lab’s laser-induced graphene as medium for ultramodern art May 3rd, 2019

‘Quantum Rhapsodies’ performance explores quantum physics, its role in our universe April 5th, 2019

Disability Can Be a Superpower in Space Disabled astronauts offer unique solutions to emergencies in space May 17th, 2018

Leave a Reply

Your email address will not be published. Required fields are marked *