GSPI: Kristy Hunt "Our system removes the costly..
Post# of 75
Graphene is the swiss army knife
of advanced materials
If you think graphene is overhyped - think again
https://www.nasa.gov/sites/default/files/atom...ishing.pdf
page 49
Kristy Hunt
@CEOGSPI
·
18h
GSPI Graphene tech not only improves the R&D timelines but the system can be scaled for Graphene material production. Our system removes the costly graphite feedstock, produces a pure product and produces it at a speed that will greatly improve time to market. Future is bright!
Source: https://twitter.com/CEOGSPI
Kristy Hunt
@CEOGSPI ·
19h
$GSPI is bringing Graphene R & D to a New Level. Our system allows simple modifications to be made in minutes that will produce slightly different molecule outputs. Graphene can be made in so many different shapes and structures , finding the right one is crucial to each project.
Source: https://twitter.com/CEOGSPI
Graphene: Current reality - Impossible to Industrial in 17 years
If you think graphene is overhyped - think again
We are seeing proven double-digit performance improvements
in multiple applications of graphene powders and dispersions
Graphene is the swiss army knife
of advanced materials
Source: https://pubs.acs.org/doi/10.1021/acsanm.0c02055 Image credit: Pixabay
CVD (sheet) graphene is starting to
make an appearance in sensors
and actively considered for the
Space Elevator tether
ABOVE ON PAGE 49
Source: https://www.nasa.gov/sites/default/files/atom...ishing.pdf
Graphene, the Swiss Army Knife of Nanomaterials Science
Amelie Ferrand, Mohamed Siaj*, and Jerome P. Claverie*
Graphene was discovered 16 years ago by Geim (1) and Novoselov. (2) Since then, this multifunctional material has been used in a plethora of applications across biomedical, environmental, and energy-related domains. Our journal, ACS Applied Nano Materials, is now a little over 2 years old. With roughly 200 published reports on the topic, graphene-related publications are occupying a prominent position. How does one explain such popularity? Graphene is unique in terms of both performance and versatility. Indeed, graphene exhibits staggering electron mobility, electronic conductivity, thermal conductivity, and mechanical properties. Yet, subtle changes in its structure and its processing lead to a myriad of novel properties. In this Editorial, we have taken a closer look at the 197 papers that were published in our journal during the last 2 years (Figure 1)...
Source: https://pubs.acs.org/doi/10.1021/acsanm.0c02055