Solar RRL,
Journal Year:
2019,
Volume and Issue:
3(7)
Published: April 8, 2019
Solar
vaporization,
which
is
emerged
as
a
promising
candidate
for
harvesting
solar
energy
in
sewage
purification
and/or
seawater
desalination,
has
attracted
increasing
interests
during
the
last
few
years.
Although
tremendous
advances
are
made,
it
still
challenging
to
realize
simple
fabrication
protocols,
low‐cost,
and
rationally
editable
3D
structures
toward
multipath
water
extraction
from
liquid/solid
media.
Inspired
by
natural
plants
with
hierarchical
rooted
soils,
herein,
an
artificial
tree
of
carbon
nanotubes
(CNTs)
film/paper
hybrid
tunable
transpiration
under
illumination
designed.
In
this
system,
interfacial‐assisted
transfer
strategy
developed
alternatively
self‐assembled
CNT
films
at
air/water
interface
onto
one
side
arbitrary
substrates
uniform/patterned
way.
The
paper‐based
photothermal
absorbers
favorable
tailorability
foldability
allow
transformation
2D
evaporators
tree‐like
ones.
achieved
specific
can
extract
purified
ranging
conventional
liquid
phase
(e.g.,
water)
solid
sand),
significantly
extend
application
extraction.
EcoMat,
Journal Year:
2022,
Volume and Issue:
4(6)
Published: June 29, 2022
Abstract
The
ever‐growing
depletion
of
precious
metals
in
modern
electronic
industry
necessitates
unremitting
exploitation
novel
materials
for
gold
recovery
from
e‐waste.
Herein,
a
freestanding
poly(imine
dioxime)
(PIDO)
membrane
has
been
successfully
fabricated
highly
efficient
consummate
integration
abundant
binding
sites
and
hierarchically
porous
architecture
renders
the
resulting
PIDO
with
record‐breaking
uptake
capacity
(9250
mg
g
−1
)
toward
gold,
fast
adsorption
equilibrium
time,
as
well
satisfactory
regeneration
reusability.
Furthermore,
is
also
competent
selective
waste
central
processing
unit
leachate
remarkable
efficiency
(>99%).
Considering
high
efficiency,
outstanding
selectivity,
simple/scalable
production
process,
proposed
will
hold
huge
prospect
sustainable
image
Solar RRL,
Journal Year:
2019,
Volume and Issue:
3(7)
Published: April 8, 2019
Solar
vaporization,
which
is
emerged
as
a
promising
candidate
for
harvesting
solar
energy
in
sewage
purification
and/or
seawater
desalination,
has
attracted
increasing
interests
during
the
last
few
years.
Although
tremendous
advances
are
made,
it
still
challenging
to
realize
simple
fabrication
protocols,
low‐cost,
and
rationally
editable
3D
structures
toward
multipath
water
extraction
from
liquid/solid
media.
Inspired
by
natural
plants
with
hierarchical
rooted
soils,
herein,
an
artificial
tree
of
carbon
nanotubes
(CNTs)
film/paper
hybrid
tunable
transpiration
under
illumination
designed.
In
this
system,
interfacial‐assisted
transfer
strategy
developed
alternatively
self‐assembled
CNT
films
at
air/water
interface
onto
one
side
arbitrary
substrates
uniform/patterned
way.
The
paper‐based
photothermal
absorbers
favorable
tailorability
foldability
allow
transformation
2D
evaporators
tree‐like
ones.
achieved
specific
can
extract
purified
ranging
conventional
liquid
phase
(e.g.,
water)
solid
sand),
significantly
extend
application
extraction.
