Introduction
Catalysts are substances that increase the rate of chemical reactions without being consumed in the process, making them essential components in various industries, biological systems, and environmental processes. This article aims to explore the numerous advantages of catalysts, their applications, and their significance in our everyday lives.




Accelerating Chemical Reactions
One of the primary advantages of catalysts is their ability to accelerate chemical reactions significantly. They achieve this by lowering the activation energy required for the reaction to occur, providing an alternative pathway for the reactants. This property is particularly useful in industries where rapid reactions are essential for maintaining productivity and efficiency, such as in the production of pharmaceuticals, polymers, and fine chemicals.




Reducing Energy Consumption
Catalysts contribute significantly to energy conservation by reducing the energy required to initiate and sustain chemical reactions. Since they lower the activation energy, less heat or other forms of energy are needed to drive the reaction. This energy-saving feature is particularly beneficial in energy-intensive industries like oil refining, chemical manufacturing, and power generation. By reducing energy consumption, catalysts help lower production costs and minimize the environmental impact of industrial processes.




Enhancing Product Selectivity
Catalysts can improve the selectivity of chemical reactions, directing them towards the desired products and minimizing the formation of unwanted by-products. This property is crucial in industries where the production of specific compounds is essential, such as in the synthesis of pharmaceuticals, agrochemicals, and specialty chemicals. By enhancing product selectivity, catalysts help reduce waste generation, lower production costs, and improve overall process efficiency.

Facilitating Environmental Protection
Catalysts play a vital role in environmental protection by promoting cleaner and more sustainable chemical processes. They are used in various pollution control technologies, such as catalytic converters in automobiles, which convert harmful exhaust gases into less toxic substances. Additionally, catalysts are employed in wastewater treatment plants to break down pollutants and in industrial processes to minimize greenhouse gas emissions. By facilitating these environmentally friendly processes, catalysts contribute to a healthier and more sustainable planet.




Biological Significance
In living organisms, catalysts in the form of enzymes are essential for numerous biochemical reactions. Enzymes are protein-based catalysts that regulate metabolic processes, such as digestion, energy production, and DNA replication. They enable these reactions to occur at physiological temperatures and concentrations, ensuring the proper functioning of cells and maintaining overall health.




Improving Renewable Energy Technologies
Catalysts play a crucial role in the development and optimization of renewable energy technologies. They are used in fuel cells to facilitate the conversion of chemical energy into electrical energy, and in the production of biofuels, such as ethanol and biodiesel. Additionally, catalysts are employed in the synthesis of solar cells and batteries, enhancing their efficiency and performance. By improving renewable energy technologies, catalysts contribute to a more sustainable and eco-friendly energy future.




Promoting Advances in Nanotechnology and Materials Science
Catalysts are essential in the synthesis of nanomaterials and the development of novel materials with unique properties. They enable the precise control of chemical reactions at the nanoscale, allowing for the production of materials with tailored characteristics for specific applications. This property is particularly useful in fields such as electronics, medicine, and energy storage, where the development of advanced materials is crucial for technological progress.




Conclusion
The advantages of catalysts are vast and varied, spanning across multiple industries and applications. From accelerating chemical reactions and reducing energy consumption to enhancing product selectivity and facilitating environmental protection, catalysts play a pivotal role in our daily lives. As research continues to uncover new applications and potential uses for these versatile substances, the importance of catalysts in shaping a more sustainable and technologically advanced future becomes increasingly evident.




Recommended Reading：
N-Methylmorpholine
4-Formylmorpholine
dimethomorph
3-morpholinopropylamine
4-Acryloylmorpholine
N-Acetylmorpholine
N-Ethylmorpholine
Morpholine
2-(2-Aminoethoxy)ethanol
DMAPA

N,N-Diisopropylethylamine CAS7087-68-5


N,N-Diisopropylethylamine
N-Ethyldiisopropylamine,
3-METHYL-1-BUTINE-3-OL;
BIOTECHGRADESOLVENT,99.5%;
DIPEA,
Ethyldiisopropylamine,
Hünig’s base


CAS Number:7087-68-5
EC Number:230-392-0
MDL number:MFCD00008868



Appearance Colorless to Light yellow clear liquid
Purity(GC) min. 99.0 %
Quality Level 200
Assay ≥99%
form liquid
refractive index n20/D 1.414 (lit.)
Melting Point -45 °C
Boiling Point 127 °C
density 0.742 g/mL at 25 °C (lit.)
Specific Gravity 0.92
Molecular Formula / Molecular Weight C8H19N = 129.25
Flash point 12 °C
Refractive Index 1.41
Solubility in water Insoluble
Solubility (soluble in) Alcohol
Condition to Avoid Air Sensitive
CAS 7087-68-5
MDL Number MFCD00008868
Explosion limit 0.7 - 6.3 %(V)
pH value 12.3 (H₂O, 20 °C) (as an emulsion)
Viscosity kinematic 0.88 mm2/s (20 °C)
Vapor pressure 14 hPa (20 °C)
HS Code 2921 19 99

General description
N,N-Diisopropylethylamine, also known as Hünig′s base, is a sterically hindered amine. It is a non-nucleophilic base commonly employed for substitution reactions.It acts as an activator for chiral iridium N, P ligand complexes, which can be utilized in the hydrogenation of α, β-unsaturated nitriles. The influence of varying concentration of N,N-diisopropylethylamine on the synthesis of olvanil in the presence of lipase catalyst has been investigated.

Application
N,N-Diisopropylethylamine may be used in the synthesis of mannosylated ovalbumin peptides.
TBDPS protection of Alcohols using tert-Butylchlorodiphenylsilane.
BOM protection of Alcohols using Benzyloxymethyl Chloride.

Storage and transportation:
Should be sealed and stored in a dry, cool and ventilated warehouse

Package:
200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.
https://www.newtopchem.com/archives/43095
Email us: [email protected]

2-Isopropylphenol CAS88-69-7

2-Isopropylphenol
CAS:88-69-7
Molecular formula: C9H12O
EINECS号:201-852-8
prodox131
O-CUMENOL
O-ISOPROPYLPHENOL
ORTHO-ISO-PROPYLPHENOL
FEMA 3461
RTECS号：SL5900000

29071900
UN 3145
Hazard class 8
Packing Group II

ECHA EINECS - REACH Pre-Reg: 201-852-8
FDA UNII: B2899Z0Q2U
Beilstein Number: 1363322
MDL: MFCD00002224
CoE Number: 11234
XlogP3: 2.90 (est)
Molecular Weight: 136.19384000
Formula: C9 H12 O

Appearance: colorless to pale orange clear liquid (est)
Assay: 98.00 to 100.00
Food Chemicals Codex Listed: No
Specific Gravity: 0.98900 to 0.99900 @ 25.00 °C.
Pounds per Gallon - (est).: 8.229 to 8.313
Refractive Index: 1.52500 to 1.53000 @ 20.00 °C.
Melting Point: 14.00 to 16.00 °C. @ 760.00 mm Hg
Boiling Point: 212.00 to 214.00 °C. @ 760.00 mm Hg
Vapor Pressure: 0.112000 mmHg @ 25.00 °C. (est)
Flash Point: 192.00 °F. TCC ( 88.89 °C. )

Product Number I0173
Purity / Analysis Method >98.0%(GC)
Physical State (20 deg.C) Liquid
Store Under Inert Gas Store under inert gas
Condition to Avoid Air Sensitive
CAS RN 88-69-7
PubChem Substance ID 87571558
SDBS (AIST Spectral DB) 2344

Transport Information:
UN Number (DOT-AIR) UN3145
Class (DOT-AIR) 8
Packing Group (TCI-A) III
HS Number 2907.19.2000


Storage and transportation:
Should be sealed and stored in a dry, cool and ventilated warehouse

Package:
200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.
https://www.newtopchem.com/archives/43088
Email us: [email protected]

2-(1-methylpropyl)phenol CAS89-72-5 2-sec-buty phenol

2-(1-methylpropyl)phenol
2-sec-buty phenol
O-S-BUTYLPHENOL;
ORTHO-SEC-BUTYLPHENOL;
OSBP
1-(1-Methylpropyl)phenol;
Phenol, o-sec-butyl-;
Phenol,2-(1-methylpropyl)

CAS No. 89-72-5
Molecular formula C10H14O
EINECS No. 201-933-8
Hazardous material transport number UN 3145
RTECS No. SJ8920000
Hazard class 8
Packing group III
Customs code 29071910


Product Number B0732
Purity / Analysis Method >97.0%(GC)
Molecular Formula / Molecular Weight C10H14O = 150.22 
Physical State (20 deg.C) Liquid
Store Under Inert Gas Store under inert gas
Condition to Avoid Air Sensitive
CAS RN 89-72-5
Reaxys Registry Number 1210026
PubChem Substance ID 87563733
SDBS (AIST Spectral DB) 1789
MDL Number MFCD00002225
Specifications
Appearance White to Light yellow powder to crystal
Properties (reference)
Melting Point 14 °C
Boiling Point 228 °C
Flash point 102 °C
Specific Gravity (20/20) 0.98
Refractive Index 1.52
Solubility in water Insoluble
Solubility (soluble in) Alcohol, Ether
Transport Information:
UN Number (DOT-AIR) UN3145
Class (DOT-AIR) 8
Packing Group (TCI-A) III
HS Number 2907.19.2000

Storage and transportation:
Should be sealed and stored in a dry, cool and ventilated warehouse

Package:
200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.

https://www.newtopchem.com/archives/43085

Email us: [email protected]

Methylcyclohexane CAS108-87-2
Cyclohxylmethane;
heptanaphthene;
methyl-cyclohexan;
methylecyclohexane;
Metylocykloheksan

RTECS No. GV6125000
Molecular Formula C7H14
CAS No. 108-87-2
EINECS No. 203-624-3
UN Dangerous Goods Code (UN No.): 2296
Shipping name: Methylcyclohexane
Hazardous classification ：3
Packing Group II
Customs code 2902 19 00
grade anhydrous
Quality Level 100
vapor density 3.4 (vs air)
vapor pressure 37 mmHg ( 20 °C)
83.2 mmHg ( 37.7 °C)
Assay ≥99%
form liquid
autoignition temp. 545 °F
impurities <0.002% water
<0.005% water (100 mL pkg)
evapn. residue <0.0005%
refractive index n20/D 1.422 (lit.)
bp 101 °C (lit.)
mp −126 °C (lit.)
density 0.77 g/mL at 25 °C (lit.)
SMILES string CC1CCCCC1
InChI 1S/C7H14/c1-7-5-3-2-4-6-7/h7H,2-6H2,1H3
InChI key UAEPNZWRGJTJPN-UHFFFAOYSA-N


Application
Methylcyclohexane may be used as a solvent for the synthesis of unsolvated n-butylmagnesium chloride by the reaction of 1-chlorobutane with magnesium powder. It may also be used as the starting material to synthesize 1-methylcyclohexanecarboxylic acid.
Pharmaceutical intermediates. Methylcyclohexane is an important organic solvent and extractant, which can be used as a solvent for rubber, paint, varnish (some paint solvents also use methylcyclohexane), and can be used as oil extractant. Methylcyclohexane can be used in organic synthesis as solvent and analytical reagent. In addition, methylcyclohexane can also be used as a standard for thermometer calibration. The correction solution is usually made of methylcyclohexane as the main component.



Description
Catalogue Number 806147
Description Methylcyclohexane
Product Information
CAS number 108-87-2
EC index number 601-018-00-7
EC number 203-624-3
Hill Formula C₇H₁₄
Chemical formula C₆H₁₁CH₃
Molar Mass 98.19 g/mol
HS Code 2902 19 00
Structure formula Image
Quality Level MQ200
Physicochemical Information
Appearance Form:
liquid
Color: colorless
Explosion limit 1.1 - 6.7 %(V)
Flash point -4 °C
Ignition temperature 260 °C
Melting Point -126.6 °C
Solubility 0.014 g/l
Initial boiling point and boiling range 101 °C 214 °F - lit.
Upper/lower flammability or explosive limits Upper explosion limit: 6.7 %(V) Lower explosion limit: 1.1 %(V)
Toxicological Information
LD 50 dermal LD50 Rabbit > 86000 mg/kg
Safety Information according to GHS
Hazard Pictogram(s)

Hazard Statement(s) H225: Highly flammable liquid and vapour.
H304: May be fatal if swallowed and enters airways.
H315: Causes skin irritation.
H336: May cause drowsiness or dizziness.
H410: Very toxic to aquatic life with long lasting effects.
Precautionary Statement(s) P210: Keep away from heat, hot surfaces, sparks, open flames and other ignition sources. No smoking.
P233: Keep container tightly closed.
P273: Avoid release to the environment.
P301 + P310: IF SWALLOWED: Immediately call a POISON CENTER/doctor.
P303 + P361 + P353: IF ON SKIN (or hair): Take off immediately all contaminated clothing. Rinse skin with water.
P331: Do NOT induce vomiting.
P403 + P233: Store in a well-ventilated place. Keep container tightly closed.
Signal Word Danger
RTECS GV6125000
Storage class 3 Flammable liquids
WGK WGK 2 obviously hazardous to water
Safety Information
Categories of danger highly flammable, irritant, harmful, dangerous for the environment
Storage and Shipping Information
Storage Store below +30°C.
Transport Information
Declaration (railroad and road) ADR, RID UN 2296 , 3, II
Declaration (transport by air) IATA-DGR UN 2296 , 3, II
Declaration (transport by sea) IMDG-Code UN 2296 , 3, II
Specifications
Assay (GC, area%) ≥ 99 %
Density (d 20 °C/ 4 °C) 0.769 - 0.770
Identity (IR) passes test

Storage and transportation:
Should be sealed and stored in a dry, cool and ventilated warehouse

Package:
200KG/drum Storage: It is recommended to store in dry and cool area with proper ventilation. Please fasten the lid as soon as possible after original packing to prevent the mixing of other substances such as moisture from affecting the product performance. Do not inhale dust and avoid skin and mucous membrane contact. Smoking, eating and drinking are prohibited in the workplace. After work, shower and change clothes. Store contaminated clothes separately and wash them before use. Maintain good hygiene habits.
https://www.newtopchem.com/archives/43090
Email us: [email protected]

TMG N,N,N,N-Tetramethylguanidine CAS No.: 80-70-6

N,N,N,N-Tetramethylguanidine
CAS No.: 80-70-6

Overview:
Common Name: N,N,N,N-Tetramethylguanidine
Other Chemical Names:
N,N-Tetramethylguanidine;1,1,3,3-TetramethylGuanidine(TMG);1,1,3,3-Tetramethylgyanidine, 1,1,3,3-TetrChemicalbookamethylguanidine, ;N,N,N,N-Tetramethy1Guanidine; 1,1,3,3-Tetramethylguanidin; TMG; 1,1,3tetramethylguanidine
MF：C5H13N3
MW：115.18
CAS：80-70-6

Typical Properties

Appearance Form: liquid
Colour: light yellow
PH 12.7 at 10 g/l at 25 °C
Melting point/freezing point Melting point/range: -80 °C at 1,013 hPa
Initial boiling point
and boiling range 162 - 163 °C - lit.
162 °C at 1,013 hPa
Flash point 50 °C - closed cup
Density 0.916g/cm3 at 20℃
Vapour pressure 2.9 hPa at 20 °C


Description
In organic synthesis, 1,1,3,3-tetramethylguanidine is used as a strong, non-nucleophilic base. 1,1,3,3-tetramethylguanidine is an efficient and selective catalyst for alcohol benzoylation.
Physical and chemical properties tetramethylguanidine is a colorless oily liquid, boiling point 160-162℃, density 0.918, refractive index 1.4692, is a strong organic base, soluble in toluene, cyclohexanone, ethanol, etc., also Chemicalbook soluble in water, easily hydrolyzed to tetramethyl urea in alkaline aqueous solution, corrosive, generally packed in galvanized iron drums.
Applications
NT CAT TMG can also be used as a catalyst for polyurethane foam and for even dyeing of nylon, wool and other proteins to improve the durability of wool, etc. It is mainly used in the synthesis of cefradine and other drugs.

Storage Information
NEWTOP Chemical recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products performance in the end use. The optimum storage temperature is between 10 °C and 30° C. Lower and higher storage temperatures are not preferable and should be avoided.

Shelf Life:
24 Months

Standard Packaging:
180KG Steel Drum
900KG IBC Drum

Sample contact：[email protected]
More：https://www.newtopchem.com/archives/42570

TMEDA (N,N,N',N'-Tetramethylethylenediamine)
CAS No.:110-18-9

Over view
Common Name: N,N,N',N'-Tetramethylethylenediamine
Other Chemical Names: N,N,N',N'-Tetramethylethane-1,2-diamine, electrophoresis grade;Four MethylEthylenediaMine;N,N,N',N'-TetraMethylethylenediaMine
Molar formular C6H16N2
Molar mass 116.2


Physical and chemical properties:
a) Appearance Form: Transparent colorless liquid
b) Melting point/freezing point Melting point/range: -55 °C - lit.
c) Initial boiling point and
boiling range 120 - 122 °C - lit.
d) Flash point 20 °C - closed cup
e) Evaporation rate no data available
f) Flammability (solid, gas) no data available
g) Upper/lower
flammability or
explosive limits Upper explosion limit: 9,08 %(V)
Lower explosion limit: 0,98 %(V)
h) Relative density 0,775 g/cm3 at 20 °C
i) Water solubility soluble
j) Partition coefficient: log Pow: 0,3


Features and uses:
NT CAT TMEDA is a colorless-to-straw, liquid, tertiary amine with a characteristic aminic odor. It is readily soluble in water, ethyl alcohol, and other organic solvent.
It is used as an intermediate in organic synthesis. It is also used as a cross linking catalyst for polyurethane rigid foams.

Storage Information
NEWTOP Chemical recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products’ performance in the end use.

Package:
160KG Steel Drum

(Toyocat TE/ Kaolizer 11/ Dabco TMEDA)
More：https://www.newtopchem.com/archives/41215

PU catalyst： MB20 CAS#: 34364-26-6

Overview:
Common Name: BISMUTH NEODECANOATE
Other Chemical Names: Neodecanoicacid,bismuth(3+)salt;neodecanoicacid,bismuth(3++)salt;BISMUTHNEODECANOATE;BISMUTH(III)NEODECANOATE;bismuth(3+)neodecanoate;BISMUChemicalbookTHNEODECANOATE,TECH;Bismuth(III)neodecanoate,superconductorgrade~60%inneodecanoicacid(15-20%Bi);Bismuth(III)neodecanoate,superconductorgrade

a) Appearance and Properties: Liquid
Color: light yellow transparent
b) Boiling point, initial boiling point and boiling range 180 °C
c) Flash point 158 °C - closed cup
d) Evaporation rate No data available
e) Flammability (solid, gas) no data available
f) high/low flammability or explosiveness limits no data available
g) Vapor pressure 0.60mmHg at 21 °C
h) Vapour density No data available
i) Density/relative density 1.22 g/cm3 at 25 °C
j) water soluble insoluble
k)n-octanol/water partition coefficient no data available
l) Autoignition temperature no data available
m) Decomposition temperature no data available
n) Viscosity 50mPa.s at 25 °C

Features and uses:
MB20 is used as a catalyst in the polyurethane industry, showing high catalytic activity, and is widely applicable to spray, high density elastomer, and microcellular elastomer systems. Has the following characteristics:
A powerful gel catalyst to promote the completion of the reaction in the later stage;
It shows that the viscosity of the system is delayed when the level of intermolecular reaction is low in the early stage of the reaction;
Environmentally friendly products that can replace lead and tin-containing catalysts;
In the common polyurethane reaction system, the microcellular elastomer system and the high-density semi-rigid foam system enhance the stability of the system reaction.
Acts as a co-catalyst with a tertiary amine to accelerate the urethane reaction and cure. Exhibits delayed viscosity build on front-end at low usage level while promoting excellent back-end cure. It is free of mercury, lead and dibutyl tin. Possesses low volatility with little or no odor. It has compatibility with common rigid and flexible foam polyols.
It is an alternative to tin-based catalysts in flexible slabstock, high-density flexible foams, spray, microcellular, and rigid foam systems.
Storage Information
Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use.
Package:
25kg/Plastic Drum, 200KG/Steel Drum, 1000kg/IBC Drum

More：https://www.newtopchem.com/archives/39757

Pu catalyst: K-15 Active ingredients: CAS:3164-85-0

Overview:
Common name: Potassium isooctanoate solution
Other Chemical names:
Potassium2-ethylhexanoate,99.9%(metalsbasis),75%w/wsoln.;PotassiuM2-ethylhexanote;PotassiuM2-Ethylhexanoatehydratate;KaliumOctoate;Potassium2-ethyChemicalbooklhexanoatesolution,75wt.%solution,99.9%tracemetalsbasis;2-ethyl-hexanoicacipotassiumsalt;2-ETHYLHEXANOICACIDPOTASSIUMSALT;POTASSIUM2-ETHYLHEXANOATE Solution


Physical and chemical properties:
Appearance: Liquid.
Color: Colorless.
Odor: No odor.
Relative density: 1.13 (water=1)
Vapor pressure: < 19.20 mmHg at 21 °C
Density: 70.544 lb/ft3 (1.13 g/cm3) at 70 °F (21 °C)
Point Boiling Point/Range: > 572 °F (> 300 °C)
Flash point: 137.78 °C
Viscosity: 6000~1200mPas(25 °C)
Water solubility: completely dissolved.
Product use: Polyurethane catalyst


Features and uses:
Used in the production of rigid isocyanate foams. 
K-15 is a solution of potassium-salt in diethylene glycol. It promotes the isocyanate reaction and is used in a wide range of rigid foam applications. For better surface curing, improved adhesion and better flow alternatives, consider TMR-2 catalysts.
K-15 is an excellent and cost-effective isocyanate catalyst. Its high conversion rate has established it as the catalyst of choice in a number of rigid applications.


Storage Information
Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use.

Package:
200KG/Steel Drum

More:https://www.newtopchem.com/archives/555

NT CAT DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol

Overview:
DMP-30 CAS: 90-72-2 Tris(dimethylaminomethyl)phenol
Common Name: Tris(dimethylaminomethyl)phenol
Other Chemical Names:
Tris(dimethylaminomethyl)phenol,2,4,6-;2,4,6-TRI(DIMETHYLAMINOETHYL)PHENOL;a,a',a''-Tris(dimethylamino)mesitol;ProChemicalbooktexNX3;TAP(aminophenol);VersamineEH30;Tris-(dimethylaminemethyl)phenol;2,4,6-TRIS(DIMETHYLAMINO-METHYL)PHENOL

MF： C15H27N3O
MW： 265.39
CAS： 90-72-2

Typical Properties
Appearance Form: clear, viscous liquid
Colour: light yellow
Initial boiling point and boiling range 130 - 135 °C at 1 hPa - lit.
Flash point 124 °C - closed cup
Vapour density 9,16 - (Air = 1.0)
Relative density 0,969 g/mL at 25 °C
Viscosity 120~250


Features and uses:

NT CAT DMP-30 is a tertiary amine accelerator, commonly used in the production of epoxy resin and polyurethane products.
NT CAT DMP-30 is commonly used in epoxy resin coatings, adhesives and other industries to accelerate the reaction in curing agent systems such as polyamide, polyether amine, anhydride, and reduce the reaction temperature.
NT CAT DMP-30 addition amount accounts for 5-12% of the curing dose.

Storage Information
Recommends that our catalysts be stored in a dry and cool area under appropriate ventilation conditions. Each container should be closed tightly to avoid contamination with moisture or other negative influences that could change the products' performance in the end use. The optimum storage temperature is between 10 °C and 30 °C. Lower and higher storage temperatures are not preferable and should be avoided.

Shelf Life: 24 months
Standard Packaging:
200KG Steel Drum
1000KG IBC Drum
(DABCO TMR-30, PC CAT NP30, K54)

[email protected]
More：https://www.newtopchem.com/archives/633