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Fragrance Tested
Eternity Type (Belle Aire)
Oceans (Chemia)
Sunfresh (Chemia)
Grapefruit (Belle Aire)
Orange (Belle Aire)
Vanilla (Belle Aire)
Crystal Breeze (Chemia)
Dream Angels (Chemia)
Midnight Woods (Chemia)
Tropical Rainforest (Chemia)
Fragrance Solubilization
0 1 2 3 4 5 6 7 8 9 10
HazyClear
Cocamide MEA
Cocamide DEA
PEG 40 Castor Oil
Polysorbate 20
NINOL® CAA
Number of Fragrance Systems
ViscosityWith OilNo Oil
0
50
100
150
200
250
300
350
400
450
500
1000
2000
3000
4000
5000
6000
7000
8000
Oceans
(Chemia)
Tropical Rainforest
(Chemia)
Vanilla
(Belle Aire)
No Fragrance
Base
Foa
m H
eig
ht,
ml
NINOL® CAA Performance Properties with Fragrance
Visco
sity, cps a
t 25
°C
After $ve minutes, foam height remained the same
with or without oil except for the Vanilla (Belle Aire)
system which experienced a 5 ml decrease with no oil
present.
NINOL® CAA solubilizes a variety of fragrances at room
temperature, achieving the same number of clear systems
as Polysorbate 20 and a greater number of clear systems
than the other solubilizers and amides tested.
Utilizing NINOL® CAA as a fragrance solubilizer, viscosity
builder, and foam stabilizer can reduce complexity and
the number of components in the $nished formulation.
System: Base - 12% active Sodium
laureth sulfate (2 moles) and 1.5%
active Cocamidopropyl betaine
Fragrance - 1% fragrance and 3%
NINOL® CAA, solubilizer or amide.
Maximize Performance...Minimize Components with NINOL® CAA, a novel, naturally-derived aesthetics enhancer and fragrance solubilizer.
NINOL® CAA enables the solubilization of fragrances and dissolves various organic materials at
room temperature due to a large Hansen Solubility sphere, while still demonstrating excellent
viscosity and foaming performance.
At reduced use levels, this DEA-free, multifunctional nonionic surfactant provides superior
viscosity building performance and comparable foam stabilization to traditional amides and
betaines.
NINOL® CAA is the green solution for “free of” claims that meets performance and aesthetics
expectations.
� � � � � � � � � �� � � � � � �� � � � � � � � �
� � � � � �� � � � � � � � �� � � � � � � �� � � � � � � � � � � � � � � � � � � � � � �� � � � ! " #� � � � � � $ � � � � � � � % � � � � � $ � � � & � � � � � ' � � � (� � � � � � % � � � � � $ � � � & � � � � ' � � � (� � � � % � � � � � � � � � � & � � � ' � � � (� � ) � � � � � % � � � � � * � � � � � & ) � * � ' � � � (� � + � , � � � � � � � �� � ) � � - � � � � � � � � -� � ) � � � $ � � -� � - � � � -� � � � � � � � � � � � * � � � � � � �
� � � � � � �� � � � � � � � �- � � � � � � � . � - $ � � � ' � � * � � � � � -� � � � � � � � � � � - � � - � � � � � � - � � �' � � $ - � � � � � � . � �' � � $ � � � - � � �� � � � � � � � * � � � � � � � - � � � � � � � . � �� � � � � $ � � � � � �� � � � � � � / � � �+ 0 0 # � � � � � �� � � � �� � % � �� � � � � � � � - � � ' � � � � � �
% � * % � � ' � � * � � � � � � - � - � � $ -- % � $ ) � � -� � � � � � - % � -� � / � � � % � � � - � � ) -� � � � � � � � � % -% � � � � � � � � � � � � � � -' � � � � � � � � � � - � � -� � � � � � � � � -
Fragrance System
The addition of NINOL® CAA and fragrance to the
base formulation signi$cantly increased the viscosity
and maintained or improved the foam.
Multifunctional
0
50
100
150
200
250
300
350
400
450
500
Foa
m H
eig
ht,
ml
Without Oil Initial With Oil Initial
NINO
L® CAA
Cocam
ide M
EA
Cocam
ide D
EA
Cocam
ide M
IPA
Cocam
ide D
IPA
Cocam
idopro
pyl
Betain
e
NINO
L® CAA
Cocam
ide M
EA
Cocam
ide D
EA
Cocam
ide M
IPA
Cocam
ide D
IPA
2%1%
System: 12% active Soduim laureth sulfate (2 moles),
1.5% Sodium chloride, and amide or betaine in the
amount indicated.
Foaming Properties
0
2000
4000
6000
8000
10000
12000
14000
16000
18000
20000
0.5 1 1.5 2 2.5 3
NINOL® CAA
Cocamide MEA
Cocamide DEA
Cocamide MIPA
Cocamide DIPA
% Active Amide or Betaine
Viscosity Building PropertiesV
isco
sity
, cp
s a
t 2
5 °
C
% Active Amide or Betaine
NINOL® CAA achieves signi$cant viscosities at
reduced use levels outperforming the other
amides and betaine tested.
Typical Formulation
Viscosity Range
In this system, only 1% of NINOL® CAA is needed
to reach a typical formulation viscosity where
all other amides and betaine tested require
more than 2%.
At equal or half the use level, NINOL® CAA
provides comparable to improved &ash foam
and foam stability in the presence of oil
to the other amides and betaine tested.
Excellent
0
20
40
60
80
100Anionic
Anionic + NINOL® CAA
STEOL®
CS-230
ALPHA-STEP®
PC-48
BIO-TERGE®
AS-40
STEPANOL®
WA-EXTRA
Relative Mildness
When combined with anionic surfactants,
NINOL® CAA reduces the amount of Zein protein
solubilized and therefore increases mildness.
Ze
in S
core
(In
de
xed
to
SL
S)
NIN
OL®
CAA
Cocam
ide
DEA
Cocam
ide
MEA
Cocam
ide
MIP
A
Polyso
rbat
e20
PEG 4
0
Casto
r Oil
Fragrance Solubilizer
Viscosity Enhancer
100% Active
Naturally-Derived (BCI >85 %)
DEA and
Preservative-Free
Cold-Mixable
Cocam
idopro
pyl
Liquid
Betain
e
Property Comparison
Cocamidopropyl
Betaine
Shake Foam Test (0.2% active solution at 25 °C)
EO Free
Without Oil Five Minutes With Oil Five Minutes
Cocam
idopro
pyl
Betain
e
Meets
Poor
Maximize Performance Mild
2015 © Stepan Company. All rights reserved.
The information contained herein is based on the manufacturer’s own study and the works of others
and is subject to change without prior notice. The information is not intended to be all-inclusive,
including as to the manner and conditions of use, handling, storage or disposal or other factors that
may involve additional legal, environmental, safety or performance considerations. Nothing
contained herein grants or extends a license, express or implied, in connection with any patents
issued or pending of the manufacturer or others, or shall be construed as a recommendation
to infringe any patents or to violate any applicable laws. STEPAN COMPANY MAKES NO
WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR USE, AND NO
WARRANTY OR GUARANTY OF ANY OTHER KIND, EXPRESS OR IMPLIED, IS MADE, I
NCLUDING REGARDING PERFORMANCE, SAFETY, SUITABILITY, STABILITY, ACCURACY,
COMPLETENESS, ADEQUACY OR OTHERWISE. Stepan Company (and its employees, s
ubsidiaries and a#liates) shall not be liable (regardless of fault) to the vendee, its
employees, or any other party in respect of this information, including in respect of
its accuracy, completeness, adequacy, furnishing, use, or reliance upon, and the
vendee assumes and releases Stepan Company (and its employees, subsidiaries
and a#liates) from all liability, whether in tort, contract or otherwise.
ALPHA-STEP®, BIO-TERGE®, NINOL®, STEOL®, and STEPANOL® are registered trademarks of Stepan Company.
SPN-3052 October 2015
www.stepan.com/NINOLCAA
Stepan Trade Name Description/INCI
STEPANOL® WA-EXTRA Sodium Lauryl Sulfate (SLS)
STEOL® CS-230 Sodium Laureth Sulfate, 2 moles (SLES-2)
BIO-TERGE® AS-40 Sodium C14-16 Ole%n Sulfonate (AOS)
ALPHA-STEP® PC-48Sodium Methyl 2-Sulfolaurate (and)
Disodium 2-Sulfolaurate (MES)
INCI Dimethyl Lauramide /Myristamide
CAS # 3007-53-2 and 3015-65-4
Actives, % 100
Appearance at 25 °C Clear to pale yellow liquid
BCI 86
Viscosity, cps at 25 °C 8
pH (5% in 1:1 IPA:H2O) 4-6
Gardner Color 1
Odor Mild Amide Odor
Preservative None
Boiling Point, °C in N2 310
Pour Point, °C 11
Solubility of CAA in Water, % 0.01
Solubility of Water in CAA, % 1
Typical Properties