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suchem

Suchem is an interdisciplinary field that focuses on the design, analysis, and optimization of chemical processes and materials with minimal environmental impact. The term is used as a broad umbrella for practices in sustainable and green chemistry, process intensification, catalysis, and materials science, emphasizing lifecycle thinking and resource efficiency. Researchers aim to reduce hazards, energy use, waste, and dependency on nonrenewable inputs while maintaining performance and economic viability.

Origin and usage: The word suchem emerged in the early 21st century within green chemistry circles as

Core methods include the deployment of flow chemistry and solvent-free or solvent-minimized processes, the use of

Applications span pharmaceuticals, polymers, energy storage, and environmental technologies. Academic programs and industry research groups often

Because sustainability criteria can conflict with cost or performance goals, the field has faced criticism regarding

a
shorthand
for
a
holistic
approach
to
chemical
development.
It
is
not
a
fixed
standard,
and
the
scope
can
vary
by
institution,
sometimes
overlapping
with,
or
used
alongside,
terms
such
as
sustainable
chemistry,
eco-friendly
synthesis,
and
responsible
innovation.
biocatalysis
and
electrochemical
synthesis,
and
the
substitution
of
hazardous
feedstocks
with
renewable
alternatives.
Computational
tools
such
as
reaction
screening,
process
modeling,
and
life-cycle
assessment
are
integral
to
evaluating
sustainability
performance
before
scale-up.
pursue
suchem
through
interdisciplinary
teams
combining
chemistry,
chemical
engineering,
environmental
science,
and
data
analytics.
Metrics
such
as
atom
economy,
E-factor,
mass
and
energy
intensity,
and
life-cycle
impact
guide
project
selection
and
optimization.
metrics
standardization
and
real-world
adoption.
Proponents
emphasize
transparent
reporting
and
lifecycle
thinking,
while
critics
caution
against
overreliance
on
surrogate
indicators.