Tired of your robot? Why not eat it?
To have
You
Never
fatigue
of
playing
with
your
last
robot
invention
And
wish
You
could
just
eat
he?
GOOD,
It is
Exactly
What
A
team
of
researchers
East
investigating.
There
East
A
fully
finance
research
initiative
(not
A
April
Idiots
joke,
as
far
as
We
know)
rummage
In
THE
possibilities
of
edible
electronic
And
mechanical
systems
used
In
the robotics.
THE
team,
directed
by
EPFL
In
Swiss,
combined
food
process
engineering,
printed
And
molecular
electronic,
And
soft
robotics
has
create
fully
functional
And
practical
robots
that
can
be
consumes
has
THE
END
from
their
lifetime.
While
THE
concept
of
based on food
robots
can
seem
unusual,
THE
potential
apps
In
medicine
And
reduce
waste
during
food
delivery
are
significant
conduct
factors
behind
This
idea.
THE
Robofood
project
(a few
articles
are
paid!)
has
clearly
do
a few
raids
In
THE
a lot
Components
necessary.
Take,
For
example,
batteries.
Normally,
ingest
A
battery
would be
result
In
A
journey
has
THE
emergency
bedroom,
but
A
edible
battery
can
be
do
Since
A
anode
of
riboflavin
(find
In
almonds
And
egg
white)
And
A
cathode
of
quercetin,
as
We
covered
A
while
There is.
THE
team
propose
another
battery
using
activated
coal
(THAT)
electrodes
on
A
Gelatin
substrate.
Water
East
divide
In
It is
component
oxygen
And
hydrogen
by
to apply
A
tension
has
THE
structure.
These
gas
adsorb
In
THE
THAT
surface
And
later
recombine
back
In
THE
water,
provide
A
usable
one volt
to go out
For
ten
minutes
with
A
similar
charge
time.
This
simple
structure
East
reusable
And,
once
expired,
dissolved
harmless
In
(simulated)
gastric
fluid
In
twenty
minutes.
Such
A
device
could
potentially
power
A
Gastrointestinal tract
exploratory
robot
Or
other
sensor
devices.
But What to use East power without control? (as a few car tire advertisement once said) Microfluidics control circuits can be created using A stack of edible materials, mostly oleogels, as ethyl cellulose, mixed with A organic oil such as olive oil. A microfluidics NOT grid combined A pressure controlled to change with A fluid resistance....
To have
You
Never
fatigue
of
playing
with
your
last
robot
invention
And
wish
You
could
just
eat
he?
GOOD,
It is
Exactly
What
A
team
of
researchers
East
investigating.
There
East
A
fully
finance
research
initiative
(not
A
April
Idiots
joke,
as
far
as
We
know)
rummage
In
THE
possibilities
of
edible
electronic
And
mechanical
systems
used
In
the robotics.
THE
team,
directed
by
EPFL
In
Swiss,
combined
food
process
engineering,
printed
And
molecular
electronic,
And
soft
robotics
has
create
fully
functional
And
practical
robots
that
can
be
consumes
has
THE
END
from
their
lifetime.
While
THE
concept
of
based on food
robots
can
seem
unusual,
THE
potential
apps
In
medicine
And
reduce
waste
during
food
delivery
are
significant
conduct
factors
behind
This
idea.
THE
Robofood
project
(a few
articles
are
paid!)
has
clearly
do
a few
raids
In
THE
a lot
Components
necessary.
Take,
For
example,
batteries.
Normally,
ingest
A
battery
would be
result
In
A
journey
has
THE
emergency
bedroom,
but
A
edible
battery
can
be
do
Since
A
anode
of
riboflavin
(find
In
almonds
And
egg
white)
And
A
cathode
of
quercetin,
as
We
covered
A
while
There is.
THE
team
propose
another
battery
using
activated
coal
(THAT)
electrodes
on
A
Gelatin
substrate.
Water
East
divide
In
It is
component
oxygen
And
hydrogen
by
to apply
A
tension
has
THE
structure.
These
gas
adsorb
In
THE
THAT
surface
And
later
recombine
back
In
THE
water,
provide
A
usable
one volt
to go out
For
ten
minutes
with
A
similar
charge
time.
This
simple
structure
East
reusable
And,
once
expired,
dissolved
harmless
In
(simulated)
gastric
fluid
In
twenty
minutes.
Such
A
device
could
potentially
power
A
Gastrointestinal tract
exploratory
robot
Or
other
sensor
devices.
But What to use East power without control? (as a few car tire advertisement once said) Microfluidics control circuits can be created using A stack of edible materials, mostly oleogels, as ethyl cellulose, mixed with A organic oil such as olive oil. A microfluidics NOT grid combined A pressure controlled to change with A fluid resistance....
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