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ADDOCAT 106

Addocat 106 typically consists of a complex organometallic formulation that is carefully engineered to provide consistent performance under diverse processing conditions.
Addocat 106 enhances the efficiency of chemical reactions by lowering activation energy, thus reducing the time and energy required to produce high-quality polymer products.
Addocat 106 is a specialized chemical product widely used as a catalyst in various industrial applications, particularly in the production of polyurethane foams and elastomers.

CAS Number: 578-95-0
Molecular Formula: C13H9NO
Molecular Weight: 195.22
EINECS Number: 209-434-7

Synonyms: acridone, 9(10H)-Acridone, acridin-9(10H)-one, 9-Acridone, Acridanone, 9(10H)-ACRIDINONE, 10H-acridin-9-one, 9-Acridanone, Acridin-9-one, 9,10-Dihydro-9-oxoacridine, Acridine, 9,10-dihydro-9-oxo-, CCRIS 3317, UNII-6BK306GUQA, EINECS 209-434-7, 6BK306GUQA, NSC 408196, 9(10H)acridone, BRN 0007104, 7H-Dibenz(a,j)acrid-14-one, CHEBI:50756, AI3-00868, NSC-408196, 9,l0-Dihydro-9-oxoacridine, DTXSID8060371, 5-21-09-00007 (Beilstein Handbook Reference), 7H-DIBENZ[A,J]ACRID-14-ONE, 9Acridanone, Acridin9one, 9Acridone, 9(10H)Acridanone, 9(10H)Acridinone, 9-Azaanthracen-10-one, 9,10Dihydro9oxoacridine, Acridine, 9,10dihydro9oxo, DTXCID8042264, fzeyvtfcmjsgmp-uhfffaoysa-n, inchi=1/c13h9no/c15-13-9-5-1-3-7-11(9)14-12-8-4-2-6-10(12)13/h1-8h,(h,14,15, 578-95-0, 9(10H)-Acridanone, MFCD00005019, 9,10-dihydroacridin-9-one, ACRIDIN-9-OL, MLS000551242, 643-62-9, SMR000112235, Acridine,10-dihydro-9-oxo-, 9-Acridinol, 9-hydroxyacridine, Acridone (Standard), 9(10H) acridone, 9-(10H)acridone, 9(10)H-Acridone, acridine, 9-hydroxy-, cid_2015, SCHEMBL19289, CHEMBL436589, 9(10H)-Acridanone, 99%, BDBM74759, NSC7664, HMS2271C03, BCP25846, HY-W007771R, NSC-7664, MFCD00127712, NSC138672, NSC408196, STK803038, AKOS000119816, AKOS002257157, CS-W007771, FA01197, HY-W007771, NSC-138672, NCGC00246256-01, AS-17382, SY035720, DB-053127, A0133, NS00006605, EN300-18139, C20142, AB00572676-08, AE-641/00183032, Q342721, Z57205009, F0486-2424, 9-Acridone, Acridanone, Acridin-9-one, Acridine, 9,10-dihydro-9-oxo-, Dihydroketoacridine, 9-Acridone;AURORA KA-3719;acridin-9-(10H)-one;ACRIDONE, FOR FLUORESCENCE;9,10-Dihydro-9-oxoacridone;9(10H)-Acridone,99%;9(10H)-Acridone,97%;9(10H)-Acridone, pract., 96%

Addocat 106 is a strong gelling catalyst for BDO-cured systems, e. g. footwear.
Addocat 106 is 25 % solution of triethylene diamine in 1,4 butanediol.
Addocat 106 acts as a catalyst for polyurethane.

Addocat 106 is suitable for use in semi-rigid integral systems such as formulations for shoe soles, armrests for cars.
This catalyst is known for its ability to accelerate the reaction between isocyanates and polyols, which are key components in polyurethane chemistry, enabling manufacturers to achieve faster curing times and improved material properties.
Because of its role in polyurethane manufacturing, it is commonly employed in industries such as automotive, furniture, insulation, and footwear, where polyurethane-based materials are extensively used.

Due to its chemical nature, Addocat 106 must be handled with care, following safety protocols to avoid potential hazards such as skin and eye irritation or respiratory sensitization.
Addocat 106 plays a critical role in optimizing industrial production processes and improving the final characteristics of polyurethane materials.
Addocat 106 is suitable for recipes which also contain 1,4 butanediol.

Addocat 106 is specically used for semi-rigid integral systems such as formulations for shoe soles, armrests for cars, etc. and for polyurethane coatings and elastomers manufactured by cold casting.
Addocat 106 is highly valued in the chemical industry because it provides precise control over the polymerization process, allowing manufacturers to fine-tune the mechanical properties, density, and durability of polyurethane products.
Its catalytic activity can be adjusted by varying the concentration used, making it versatile for different formulations ranging from flexible foams to rigid plastics.

The catalyst’s effectiveness contributes to reducing production times, which in turn enhances productivity and lowers manufacturing costs.
Additionally, Addocat 106 often contributes to improved stability of the final polymer, resulting in products with better resistance to heat, chemicals, and mechanical stress.
This makes it a preferred choice in applications requiring long-lasting materials, such as automotive parts, thermal insulation panels, and durable coatings.

Despite its benefits, handling Addocat 106 requires adherence to strict safety guidelines because prolonged exposure or improper use can lead to health risks, including allergic reactions or toxicity.
Industrial workers using this catalyst must wear appropriate personal protective equipment and ensure proper ventilation in work areas.

Furthermore, Addocat 106’s formulation is often optimized to minimize environmental impact, aligning with increasingly stringent regulations on chemical manufacturing.
In summary, Addocat 106 is an essential catalyst that significantly enhances the efficiency, quality, and performance of polyurethane-based products while demanding responsible handling and environmental consideration.

Melting point: >300 °C (lit.)
Boiling point: 331.88°C (rough estimate)
Density: 1.1266 (rough estimate)
Refractive index: 1.6060 (estimate)
Storage temp.: Sealed in dry, Room Temperature
Solubility: Chloroform (Slightly, Heated), DMSO (Slightly), Methanol (Slightly)
Form: Crystalline Powder
pKa: -0.30±0.30 (Predicted)
Color: Yellow
Water Solubility: Insoluble in benzene, chloroform, ether, water and ethanol.
λmax: 380 nm, 399 nm (2nd)
BRN: 7104

Addocat 106 is to be stored in a cool and dry place.
When Addocat 105 is stored in rmly closed original containers at approx. 20 °C, a shelf-life of 24 months from manufacturing date can be expected.
Addocat 106 is highly valued in the chemical industry because it provides precise control over the polymerization process, allowing manufacturers to fine-tune the mechanical properties, density, and durability of polyurethane products.

Its catalytic activity can be adjusted by varying the concentration used, making it versatile for different formulations ranging from flexible foams to rigid plastics.
The catalyst’s effectiveness contributes to reducing production times, which in turn enhances productivity and lowers manufacturing costs.
Additionally, Addocat 106 often contributes to improved stability of the final polymer, resulting in products with better resistance to heat, chemicals, and mechanical stress.

This makes it a preferred choice in applications requiring long-lasting materials, such as automotive parts, thermal insulation panels, and durable coatings.
Despite its benefits, handling Addocat 106 requires adherence to strict safety guidelines because prolonged exposure or improper use can lead to health risks, including allergic reactions or toxicity.
Industrial workers using this catalyst must wear appropriate personal protective equipment and ensure proper ventilation in work areas.

Addocat 106 also plays a crucial role in improving the consistency and reproducibility of polyurethane products, which is vital for large-scale industrial manufacturing.
By providing reliable catalytic activity, it ensures that each batch of material meets stringent quality standards, reducing defects and waste.
This consistency is particularly important in industries such as aerospace and medical device manufacturing, where material performance and safety are critical.

Furthermore, Addocat 106’s chemical formulation is often designed to be compatible with a wide range of polyols and isocyanates, offering manufacturers flexibility in raw material selection and formulation design.
This compatibility helps optimize cost efficiency and enables the creation of customized polyurethane products tailored to specific end-use requirements.
In addition to its technical benefits, the use of Addocat 106 can lead to energy savings during production by lowering the temperature and time needed for curing, which contributes to reduced carbon footprint and operating costs.

The catalyst’s effectiveness also supports innovation in producing new polyurethane materials with enhanced properties, such as improved flame retardancy, better chemical resistance, or enhanced elasticity, expanding the scope of applications where these materials can be used.
From a regulatory perspective, Addocat 106 is subject to rigorous evaluation and compliance checks to ensure it meets environmental, health, and safety standards in different regions, reflecting its importance in responsible chemical manufacturing.

Continuous research into safer and more environmentally friendly catalytic systems includes modifications of Addocat 106 to reduce toxicity and improve biodegradability, aligning with the global push toward sustainable chemistry.
Ultimately, Addocat 106 is a pivotal component in modern polyurethane chemistry, combining performance, safety, and sustainability to meet the evolving needs of industry and society.

Uses Of Addocat 106:
Addocat 106 is primarily used as a catalyst in the production of polyurethane materials, which are widely employed across many industries due to their versatility and durability.
In the manufacturing of flexible and rigid polyurethane foams, Addocat 106 accelerates the chemical reactions between isocyanates and polyols, allowing for faster curing times and more efficient production processes.
These polyurethane foams are essential in a variety of applications, such as cushioning for furniture and mattresses, insulation panels for buildings and refrigeration, and automotive components that require lightweight yet strong materials.

Additionally, Addocat 106 is used in the creation of elastomers, which are flexible polymers utilized in products like seals, gaskets, and wheels, providing excellent resistance to wear and deformation.
Beyond foams and elastomers, this catalyst also plays a significant role in the formulation of coatings, adhesives, and sealants, where it helps achieve desirable properties such as improved adhesion, flexibility, and chemical resistance.
The use of Addocat 106 in these applications not only speeds up manufacturing but also enhances the physical characteristics of the final products, making them more durable and reliable under various environmental conditions.

Moreover, Addocat 106 allows manufacturers to tailor the polymer’s structure and performance by adjusting reaction parameters, which is especially important in specialty applications such as medical devices, electronics, and sports equipment where material performance is critical.
The catalyst’s efficiency and versatility have made it a staple in modern polyurethane chemistry, contributing significantly to innovations in material science and expanding the range of polyurethane-based products available in the market.

In addition to its widespread use in polyurethane foam production, Addocat 106 finds important applications in the fabrication of rigid foam panels that serve as thermal insulation in construction and refrigeration industries.
These panels help improve energy efficiency by reducing heat transfer, thereby lowering heating and cooling costs in buildings and appliances.
Addocat 106 also plays a critical role in producing polyurethane coatings that protect surfaces from corrosion, abrasion, and chemical exposure, which is vital for extending the lifespan of industrial equipment, automotive parts, and even flooring materials.

Furthermore, the catalyst is utilized in manufacturing polyurethane adhesives and sealants, which are valued for their strong bonding properties and flexibility, making them suitable for use in construction, automotive assembly, and packaging industries.
Because of its ability to precisely control the reaction rate, Addocat 106 is also employed in specialty polyurethane elastomers used in medical devices such as catheters, wound dressings, and prosthetics, where biocompatibility and mechanical performance are essential.
In the realm of electronics, polyurethanes catalyzed by Addocat 106 contribute to encapsulants and potting compounds that protect sensitive components from moisture and mechanical damage.

The catalyst’s versatility allows manufacturers to innovate new formulations that meet increasingly stringent environmental regulations by reducing volatile organic compounds (VOCs) and hazardous emissions during processing.
Addocat 106 is indispensable not only for accelerating production but also for enabling the creation of high-performance polyurethane products that meet diverse technical specifications and end-use demands across multiple sectors.

Addocat 106 is used in the preparation of methyl 9,10-dihydro-9-oxoacridine-10-pentanoate, use for dyeing the organic materials.
Addocat 106 was used in the preparation of methyl 9,10-dihydro-9-oxoacridine-10-pentanoate.
Addocat 106 is a catabolic product of carbamazepine (C175840) metabolite and can be used as a fluorescent tag for antibody catalysis.

Safety Profile Of Addocat 106:
Addocat 106, like many chemical catalysts, poses several hazards that must be carefully managed to ensure safety during handling and use.
Primarily, it can be irritating to the skin, eyes, and respiratory tract, causing redness, itching, or coughing upon contact or inhalation.
Prolonged or repeated exposure may lead to more severe skin sensitization or allergic reactions, making personal protective equipment such as gloves and goggles essential when working with the substance.

Additionally, Addocat 106 may release hazardous fumes if heated or involved in a fire, which can be toxic if inhaled and may require specialized ventilation or respiratory protection.
Because it is a reactive chemical, improper storage or mixing with incompatible substances—such as strong acids, bases, or oxidizers—can lead to dangerous reactions including fire or explosion hazards.
Environmental hazards also exist; accidental release or spillage may harm aquatic life and contaminate soil or water sources, so containment and proper disposal procedures are critical to minimize ecological impact.

Workers should be trained on emergency measures in case of spills or exposure, and facilities using Addocat 106 must comply with regulatory guidelines to control exposure levels and manage waste safely.
Overall, while Addocat 106 is valuable industrially, its hazardous properties necessitate strict adherence to safety protocols to protect human health and the environment.