oEPA Green Chemistry Challenge
United States	—	a
~nen,al Awards Program:
Agency
Nomination Package for
2019 Awards
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Closing Date: January 15, 2019
An electronic version of this document is available at http://www.epa.gov/greenchemistry

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Green Chemistry Challenge
Awards Program:
Nomination Package for 2019 Awards
Contents
Introduction	1
Definitions	1
A.	Green Chemistry	1
B.	Source Reduction	1
Award Categories..																									.....2
Scope of the Program...																							.....3
1.	Green Chemistry Technologies															.....3
2.	Source Reduction 																				.....3
3.	Eligible Organizations																			.....3
4.	Significant Milestone.																			.....4
5.	Significant U.S. Component	4
6.	Three Focus Areas	4
Selection Criteria	5
A.	Science and Innovation	5
B.	Human Health and Environmental Benefits	5
C.	Applicability and Impact	5
The Awards Process	6
A.	How to Enter	6
B.	Receipt of Nominations	8
C.	Judging Entries	9
D.	Notification of Winners	9
Contact Us	9
Sample Cover Page	10
Award Nomination Checklist	11

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Green Chemistry Challenge
Awards Programs
Nomination Package for 2019 Awards
THE GREEN CHEMISTRY CHALLENGE AWARDS promote the
environmental and economic benefits of novel green chemistry. These prestigious
annual awards recognize chemical technologies that incorporate green chemistry into
chemical design, manufacture, and use.
EPA's Office of Chemical Safety and Pollution Prevention sponsors the Green
Chemistry Challenge Awards in partnership with the American Chemical Society
Green Chemistry Institute® and other members of the chemical community.
This nomination package contains explicit instructions on how to enter the
competition. Entries must be sent no later than January 15, 2019. EPA will
present the awards at a ceremony in the summer.
A. Green Chemistry
Green chemistry is the design of chemical products and processes that reduce or
eliminate the use or generation of hazardous substances. Green chemistry applies
across the lifecycle of a chemical product, including its design, manufacture, use, and
ultimate disposal. Green chemistry is also known as sustainable chemistry.
Green chemistry reduces pollution at its source by minimizing or eliminating the
hazards of chemical feedstocks, reagents, solvents, and products. This is unlike
treating pollution after it is formed (also called remediation), which involves end-
of-the-pipe treatment or cleaning up of environmental spills and other releases.
Remediation may include separating hazardous chemicals from other materials, then
treating them so they are no longer hazardous or concentrating them for safe disposal.
Most remediation activities do not involve green chemistry. Remediation removes
hazardous materials from the environment; on the other hand, green chemistry keeps
the hazardous materials out of the environment in the first place.
However, if a technology reduces or eliminates the hazardous chemicals used to
clean up environmental contaminants, this technology would qualify as a green
chemistry technology. One example is replacing a hazardous sorbent [chemical] used
to capture mercury from the air for safe disposal with an effective, but nonhazardous
sorbent. Using the nonhazardous sorbent means that the hazardous sorbent is never
manufactured so the remediation technology meets the definition of green chemistry.
Introduction
Definitions
B. Source Reduction
For the purposes of the program, EPA defines green chemistry as the use of chemistry
for source reduction.
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The term "source reduction" includes any practice which:
(i)	reduces the amount of any hazardous substance, pollutant, or contaminant
entering any waste stream or otherwise released into the environment
(including fugitive emissions) prior to recycling, treatment, or disposal; and
(ii)	reduces the hazards to public health and the environment associated with
the release of such substances, pollutants, or contaminants.
Source reduction:
¦	Includes: equipment or technology modifications, process or procedure
modifications, reformulation or redesign of products, substitution of raw
materials, and improvements in housekeeping, maintenance, training, or
inventory control.
¦	Does not include: any practice which alters the physical, chemical, or
biological characteristics or the volume of a hazardous substance, pollutant,
or contaminant through a process or activity which itself is not integral to and
necessary for the production of a product or providing a service.
¦	Prevents the formation of any hazardous substance in any chemical product or
process. Source reduction is the highest tier of the risk management hierarchy
as described in the Pollution Prevention Act of 1990 (PPA).
¦	Is preferable to recycling, treatment, or disposal. Chemical technologies that
include recycling, treatment, and disposal may be eligible for an award if they
offer source reduction over traditional technologies for recycling, treatment,
and disposal.
Award
Categories
E
PA usually presents one Green Chemistry Challenge Award in each award
category. For the 2019 competition, there are five award categories.
Focus Area 1: Greener Synthetic Pathways
Focus Area 2: Greener Reaction Conditions
Focus Area 3: The Design of Greener Chemicals
Small Business* (for a technology in any of the three focus areas developed by
a small business)
Academic (for a technology in any of the three focus areas developed by an
academic researcher)
*A small business for purposes of this award must have annual sales of less than
$96 million, including all domestic and foreign sales by the company, its subsidiaries,
and its parent company.
More detail about the three Focus Areas is included below.
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T
o be eligible for an award, a nominated technology must meet the scope of the
Green Chemistry Challenge program by meeting each of these six criteria:
1.
2.
3.
4.
5.
6.
It must be a green chemistry technology with a significant chemistry
component
It must include source reduction
Its sponsor must be an eligible individual or organization
It must have a significant milestone in its development within the past five
years
It must have a significant UJS. component
It must fit within at least one of the three focus areas of the program
Scope of the
Program
1. Green Chemistry Technologies
Green chemistry technologies are extremely diverse. As a group, they...
¦	Improve upon any chemical product or process by reducing negative impacts
on human health and the environment relative to competing technologies
¦	Include all chemical processes: synthesis, catalysis, reaction conditions,
separations, analysis, and monitoring
¦	Make improvements at any stage of a chemical's lifecycle, for example,
substituting a greener feedstock, reagent, catalyst, or solvent in an existing
synthetic pathway
¦	May substitute a single improved product or an entire synthetic pathway
¦	Benefit human health and the environment at any point of the technology's
lifecycle: extraction, synthesis, use, and ultimate fate
¦	Incorporate green chemistry at the earliest design stages of a new product or
process
¦	Employ a significant change in chemistry, although they may also incorporate
green engineering practices
2. Source Reduction
For this program, EPA defines green chemistry as the use of chemistry for source
reduction. Chemical technologies that include recycling, treatment, or disposal
may meet the scope of the program if they offer source reduction over competing
technologies.
3» Eligible Individuals or Organizations
Companies (including academic institutions and other nonprofit organizations)
and their representatives are eligible for Green Chemistry Challenge Awards for
outstanding or innovative source reduction technologies.
Public academic institutions, such as state and tribal universities and their
representatives, are eligible for Green Chemistry Challenge Awards for technologies
that prevent, reduce, or eliminate air or water pollution or the adverse health effects
of solid waste entering into the waste stream.
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4.	Significant Milestone
A green chemistry technology must have reached a significant milestone within the
past five years.
Some examples are:
¦	Critical discovery made
¦	Results published
¦	Patent application submitted or approved
¦	Pilot plant constructed
¦	Relevant regulatory review (e.g., by EPA under TSCA' FIFRA-, or CAA3; by
the U.S. Food and Drug Administration under FFDCA ) initiated or completed
¦	Technology implemented or launched commercially
5.	Significant U.S. Component
A significant amount of the research, development, or other aspects of the technology
must have occurred within the United States. If the only aspect of the technology within
the Unites States is product sales, the technology may not meet the scope of the program.
6.	Focus Areas of the Green Chemistry Challenge
Green chemistry technologies fit into at least one of the three focus areas below.
Technologies that do not fit within at least one focus area may not fall within the
scope of the program.
Focus Area Is Greener Synthetic Pathways
This focus area involves designing and implementing a novel, green pathway to
produce either a new or existing chemical substance.
Examples include synthetic pathways that:
¦	Use greener feedstocks that are innocuous or renewable (e.g., biomass, triglycerides)
¦	Use novel reagents or catalysts, including biocatalysts and microorganisms
¦	Use natural processes, such as fermentation or biomimetic syntheses
¦	Are atom-economical
¦	Are convergent syntheses
Focus Area 2 s Greener Reaction Conditions
This focus area involves improving conditions other than the overall design or
redesign of a synthesis. Greener analytical methods often fall within this focus area.
Examples include reaction conditions that:
¦	Replace hazardous solvents with solvents that have less impact on human
health and the environment
¦	Use solventless reaction conditions and solid-state reactions
¦	Use novel processing methods that prevent pollution at its source
¦	Eliminate energy- or material-intensive separation and purification steps
¦	Improve energy efficiency, including reactions running closer to ambient conditions
¦	Reduce greenhouse gas emissions

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Focus Area 3 s The Design of Greener Chemicals
This focus area involves designing and implementing chemical products that replace
more hazardous products.
Examples include chemical products that are:
¦	Less toxic than current products
¦	Inherently safer because they reduce the likelihood or severity of accidents
¦	Recyclable or biodegradable after use
¦	Safer for the atmosphere (e.g., do not deplete ozone, or form smog)
Nominated chemistry technologies that meet the scope of the program will be
judged on how well they meet the following three selection criteria:
A. Science and Innovation
The nominated chemistry technology should be innovative and of scientific merit.
The technology should be, for example:
¦	Original (i.e., never employed before) and
¦	Scientifically valid, that is, can the nominated technology or strategy stand
up to scientific scrutiny through peer review? Does the nomination contain
enough chemical detail to reinforce or prove its scientific validity? Has the
mechanism of action been clarified via scientific research?
Selection
Criteria
B.	Human Health and Environmental Benefits
The nominated chemistry technology should offer human health and/or
environmental benefits at some point in its lifecycle from resource extraction to
ultimate disposal. Quantitative statements of benefits are more useful to the judges
than are qualitative ones.
The technology might, for example:
¦	Reduce toxicity (acute or chronic) or the potential for illness or injury to
humans, animals, or plants
¦	Reduce flammability or explosion potential
¦	Reduce the use or generation of hazardous substances, the transport of
hazardous substances, or their releases to air, water, or land
¦	Improve the use of natural resources, for example, by substituting a renewable
feedstock for a petrochemical feedstock
¦	Save water or energy
¦	Reduce the generation of waste, even if the waste is not hazardous
C.	Applicability and Impact
The nominated chemistry technology should have a significant impact. The
technology may be broadly applicable to many chemical processes or industries;
alternatively, it may have a large impact on a narrow area of chemistry. Commercial
implementation can help demonstrate the applicability and impact of a technology.
Nominations for pre-commercial technologies should discuss the economic feasibility
of the technology.
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The nominated technology should offer three advantages:
¦	A practical, cost-effective approach to green chemistry
¦	A remedy to a real environmental or human health problem
¦	One or more technical innovations that are readily transferable to other
processes, facilities, or industry sectors
Awards
Process
A. How to Enter
1. Basic Information
Award nominations are due to the EPA by January 15, 2019.
Awards will be presented in the summer of 2019.
Self-nominations are the most common; nominations of others are also
welcomed.
There is no entry fee.
There is no standard entry form, but nominations must meet certain
requirements or EPA may reject them.
You may nominate more than one technology, but you must submit a separate,
stand-alone nomination for each one. Multiple applications of the same general
technology are most likely to win an award if you combine them in a single
nomination.
2. Overall Format
Nominations must have:
¦	No more than eight pages, including the cover page
¦	Single-spaced, 12-point type, but references, captions, and footnotes may be as
small as 10-point type
¦	Margins of at least 1 inch when printed on 8'A»-by- l 1-inch paper
Nominations may include:
¦	Chemical reactions, tables, graphs, charts, photographs, diagrams, and other
illustrations within their eight pages.
¦	Text or illustrations in color, but the judges may read the nominations printed
in black and white; therefore, nominations should not require color for
interpretation.
¦	Links to published articles, patents, etc. Nominations should not rely on information
in links to present their technology because judges may not follow any links.
3. Structure of Nominations
The first page must be a cover page with the:
¦	Technology title and date of the nomination
¦	Primary sponsor (s): the individual or organizational owner (s) of the
technology. For academic nominations, the primary sponsor is usually the
principal investigator. For nominations with more than one sponsor, each
co-sponsor should have had a significant role in the research, development, or
implementation of the technology
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¦	Contact person with full mailing address, email address, and telephone
number: the one individual with whom EPA will communicate regarding
the nomination. For academic nominations, the contact person is usually the
principal investigator. For other nominations, the contact should be a project
manager or other technical representative. We add the person listed as the
contact to the list of subscribers for our electronic newsletter. Periodically, we
email reminders and updates about the program to those on our list. You may
opt out at any time.
¦	Contributors (optional): those individuals or organizations that provided
financial or technical support to develop or implement the technology
The second page should contain the following information:
¦	Technology title
¦	A sentence indicating whether the nominated technology is eligible for the
small business award, the academic award, both, or neither.
¦	The name (or number) of the EPA award focus area (or areas) that fits your
technology. The focus areas are (1) greener synthetic pathways; (2) greener
reaction conditions; and (3) the design of greener chemicals. No explanation is
needed.
¦	One- or two-line description of the most recent milestone for the
nominated technology and the year it occurred. Only one milestone and
year are required; the milestone must be within the last five years.
¦	One or two sentences describing the U.S. component of the technology: the
research, development, implementation, or other activities of the technology
that occurred within the United States.
¦	An abstract (not to exceed 300 words) that describes the nominated
technology, the problem it addresses, and its benefits. Include the degree of
implementation (or commercialization) of the technology and any quantitative
benefits such as the amount (or potential amount) of hazardous substances
eliminated, energy saved, carbon dioxide emissions eliminated, water saved,
etc. EPA plans to publish these abstracts in its annual Summary of Award
Entries and Recipients. If you are nominating a technology you submitted in a
previous year, you may use the abstract previously published by EPA in whole
or in part. Links to previous annual summaries of award entries and recipients
are available on the award winner page of our website: http://www.epa.gov/
greenchemistrv/.
The information in this section should fit on page 2, but you may continue on page 3
if necessary.
The remaining pages should show how your technology meets both the:
¦	Scope of the program and
¦	Three selection criteria
The judges will look for detailed explanations of:
¦	The problem (environmental or human health risk) that your technology
addresses, its importance, and how your technology solves it.
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¦	The chemistry of your new technology, emphasizing its novelty and scientific
merit. To be eligible for an award, your technology must include a significant
chemistry component. Include as much nonproprietary detail as possible, such
as the specifics of your chemistry and detailed reaction pathways. Consider
using chemical structure diagrams to describe your chemistry. You may include
patent numbers or references to peer-reviewed publications, but add only the
most important, recent ones because references take space away from other
details of your technology.
¦	Realized or potential benefits and drawbacks. These may occur
across all stages of your technology's lifecycle: from feedstocks to manufacture,
use, and the ultimate disposal of the product. Include the human health,
environmental, and economic benefits of your technology such as toxicity data
and quantities of hazardous substances reduced or eliminated. If you have not
done a full lifecycle analysis, discuss the impacts of your technology across the
lifecycle to the extent you know them.
¦	How your technology compares with any other technologies that address
the same problem. Comparing the cost, performance, and environmental
profile of your technology with any competing technologies may demonstrate
the broad applicability of your technology.
¦	Current and planned commercialization. For example, is your
technology currently on the market? Are you building a pilot or manufacturing
plant? If your technology is or is about to be commercially available, also
discuss the regulatory status of any novel chemical substance or organism
under any applicable laws such as TSCA ^, FIFRA^, CAA^, or FFDCA4. EPA
must assure that winning technologies comply with these laws.
4. Submitting Your Nomination to EPA
Submit an electronic copy of your nomination in a format so that EPA can select
and copy text. Include the primary sponsor's name in the file name. You may want
to submit your nomination as a .pdf file to minimize possible reading errors, but
EPA accepts and can read all common file types. Send the electronic copy by email
to greenchemistry@epa.gov. If you encounter problems submitting your nomination
electronically, please contact us at greenchemistry@epa.gov or (202) 564-8740.
B. Receipt of Nominations
¦	EPA will consider all entries as public information.
¦	EPA will not return any material.
¦	EPA is not responsible for lost or damaged entries.
¦	EPA acknowledges receipt of nominations by email to the Contact Person
identified in the nomination. If EPA does not acknowledge your nomination
within two weeks after you submit it, please contact us at
greenchemistrv@epa.gov or (202) 564-8740.
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C. Judging entries
A panel of technical experts convened by the American Chemical Society Green
Chemistry Institute® will judge nominations. These anonymous experts might include
members of the scientific, industrial, governmental, educational, and environmental
communities. EPA may ask the designated contact person to verify any chemistry
described or claims made in nominations on behalf of the judges. The judges will
select as award recipients those green chemistry technologies that best meet the
selection criteria. The judges may use their discretion, however, to make more than
one award (or no award) in any one category.
D. Notification of winners
EPA will notify winners prior to the official public announcement, which will be
made in the summer. EPA will present a commemorative crystal sculpture to the
primary sponsor(s) of the winning green chemistry technology in each of the six award
categories and certificates to individuals identified by the primary sponsor(s) who
contributed to the research, development, or implementation of the technology.
If you have questions about the scope of the program, nomination procedures, or
the Green Chemistry Challenge Awards Program, please email EPA's Industrial
Chemistry Branch at greenchemistry@epa.gov or call (202) 564-8740.
Contact Us
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Sample Cover
Page
Please use the format below for the cover page of your nomination.
Nominations with an Academic Sponsor
Title of Nomination
Date of Nomination
Primary Sponsor(s):
Full Name (Primary Investigator)
Name of Institution
Contact Person:
Full name
Title
Address
Phone
Email
Contributor(s): (optional) Individuals and/or organizations
Nominations with a Business Sponsor
Title of Nomination
Date of Nomination
Primary Sponsor(s):
Company Name
Contact Person:
Full name
Title
Address
Phone
Email
Contributor(s): (optional) Individuals and/or organizations
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Include the following components (see "How to Enter," page 6, for details):
~	Cover page
~	One sentence indicating whether the nomination is eligible for the academic
category, the small business category, both, or neither
~	Name or number of the EPA award focus area(s) for the nominated
technology
~	One- or two-line description of the most recent milestone and the year
it occurred
~	One or two sentences describing the activities that took place within the
United States
~	Abstract (300 words or fewer)
~	Detailed description of how the nominated technology meets the scope of the
program and the selection criteria
^TSCA is the Toxic Substances Control Act.
2FIFRA is the Federal Insecticide, Fungicide, and Rodenticide Act.
^CAA is the Clean Air Act.
^FFDCA is the Federal Food, Drug, and Cosmetic Act.

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Printed on 100% recycled/recyclable paper with a minimum of 50% post-consumer waste
SEPA
Office of Pollution
Prevention and
Toxics (7406M)
744K18001
September 2018
www.epa.gov

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