Good, I like that you share this video, I wish success always discusses designing nanomaterials for energy storage, including batteries and supercapacitors.
I Really Like The Video From Your associate professor of Materials Science and Engineering at Stanford University, discusses designing nanomaterials for energy storage
They should do more research into the cycle-lifetime of the batteries. Whats the use of an energy-density increase of 300-1000% if the battery lasts only for 100 cycles and then you have to throw it all away. Its too expensive. However, we are on the way to a bright future. Thanks a lot for posting!
@Seidelino I think it'll actually replenish itself from the POV that it's actually increased the density ~300-1000% that a huge increase. And thus even if it's 100 cycles, it's still going to perform for much longer period of time compare to regular technology... Though I agree it's too expensive.
What applications would that be? Its not true of - mobile phone (laptop/handheld electronics) batteries, (hybrid) car applications, utility power applications...all those require cost and cycle life (degradation) is important.
Can anyone direct me to a paper, article, or video on how to make carbon ink? I would appreciate it if you could even direct me to one that has additional instructions for doping the ink with various substances.
Once you have all the ingredients follow the steps below: Wear breathing protection while mixing the conductive paint. ... Add 1 tsp of white glue. Mix white glue to 3 tablespoons of white vinegar. Stir in 3-6 tablespoons of powdered carbon, or until a paint-like liquid is formed. - dhmakerbus.com/2015/03/10/how-to-make-homemade-conductive-paint/
Good, I like that you share this video, I wish success always discusses designing nanomaterials for energy storage, including batteries and supercapacitors.
I Really Like The Video From Your associate professor of Materials Science and Engineering at Stanford University, discusses designing nanomaterials for energy storage
They should do more research into the cycle-lifetime of the batteries. Whats the use of an energy-density increase of 300-1000% if the battery lasts only for 100 cycles and then you have to throw it all away. Its too expensive.
However, we are on the way to a bright future.
Thanks a lot for posting!
Great stuff, thanks for posting...
@Seidelino I think it'll actually replenish itself from the POV that it's actually increased the density ~300-1000% that a huge increase. And thus even if it's 100 cycles, it's still going to perform for much longer period of time compare to regular technology... Though I agree it's too expensive.
what a amazing video!
thank u v much for sharing this vdo presentation...looking forward for more such presentations.
This is really spirit uplifting, yet so few views and comments.
Many thanks for your good video
using Metal-Organic Frameworks to increase surface area of nano wires
What applications would that be? Its not true of - mobile phone (laptop/handheld electronics) batteries, (hybrid) car applications, utility power applications...all those require cost and cycle life (degradation) is important.
this is proper stuff
Can anyone direct me to a paper, article, or video on how to make carbon ink? I would appreciate it if you could even direct me to one that has additional instructions for doping the ink with various substances.
Once you have all the ingredients follow the steps below:
Wear breathing protection while mixing the conductive paint. ...
Add 1 tsp of white glue.
Mix white glue to 3 tablespoons of white vinegar.
Stir in 3-6 tablespoons of powdered carbon, or until a paint-like liquid is formed. - dhmakerbus.com/2015/03/10/how-to-make-homemade-conductive-paint/
The worst camera men , , I wanted fi film only the presentator and the pictures, not all the salon.
great presentation