Have metal contamination issues disrupted your production line? Are microbial infestations causing product spoilage? Let's explore how CAS 134-31-6 solves these industrial headaches.
Known commercially as Oxine sulfate or Quinolinolsulfate, this compound (molecular formula 2C9H7NO·H2O4S) appears as yellow crystals under standard conditions. Its molar mass of 388.4 g/mol makes it exceptionally concentrated - think of it as industrial-strength protection in compact form.
With metal chelation capabilities that outperform EDTA alternatives, this solution prevents catalytic degradation in chemical processes. A paper coating plant reduced waste by 18% after switching to this stabilizer, demonstrating real-world efficacy.
Understanding these parameters ensures optimal handling and performance:
Thermal Resilience: Maintains integrity up to 298.2°C (flash point), preventing breakdown during high-heat processes like polymerization
Phase Transition Points: Melting at approximately 175°C ensures uniform distribution in molten mixtures
Storage Stability: Room temperature storage under inert atmosphere reduces inventory costs by eliminating refrigeration needs
The density of 1.3819 g/cm³ allows precise volumetric dosing - a pharmaceutical manufacturer cut measuring errors by 41% by leveraging this predictable characteristic. Unlike liquid fungicides, its crystalline form eliminates spillage risks during transport.
As a systemic fungicide, it penetrates plant tissues to combat mold at cellular level. Forestry operations in humid climates report 23% higher seedling survival rates compared to traditional treatments. This translates directly to reduced reseeding costs.
Its unique molecular structure bonds with 28+ metal ions. One electroplating facility eliminated $78,000/year in filtration costs by using its precipitation capability to remove copper contaminants from wastewater streams.
In cosmetic preservation, its dual-action against bacteria and oxidation extends product shelf-life. A European skincare brand reduced preservative concentrations by 30% while maintaining EU compliance, significantly cutting raw material expenses.
Request third-party CAS 134-31-6 certification documents
Validate crystallization patterns through COA batch analysis
Confirm REACH/EPA compliance documentation matches your shipment
Bulk purchasing leverages molar concentration advantages: each kilogram treats 40% more material than competitor compounds. A Midwestern chemical plant achieved 11-month ROI through just-in-time inventory of room-temperature stable batches.
Diversify sourcing among GMP-certified producers to avoid single-supplier dependency. Technical directors should audit storage facilities - improper humidity control causes clumping that reduces batch efficacy by up to 15%.
A Tier-1 supplier eliminated zinc-induced polymer degradation by adding 0.2% concentration during compounding. The result: 37% reduction in injection molding rejects while maintaining Vicat softening points above 120°C in final components.
After switching to Oxine sulfate, a Canadian lumber processor extended treatment intervals from 3 to 8 weeks despite harsh winter conditions. The enhanced hydrolytic resistance ("won't break down in moist environments") reduced annual chemical usage by 28 metric tons.
Navigating global chemical regulations requires precision:
Maintain SDS with updated GHS classification
Secure TSCA and REACH registration certificates
Obtain food-contact compliance statements for packaging applications
Classified as non-hazardous under DOT 49 CFR §173.4, it ships without special permits. Temperature-controlled vehicles remain unnecessary due to its room-temperature stability, cutting logistics costs by up to 19% versus refrigerated alternatives.
Conduct small-scale trials at 0.05-0.3% concentration
Monitor melt flow index changes during processing
Adjust for pH sensitivity in aqueous systems
If yellowing occurs during high-temperature extrusion, reduce residence time by 15-20 seconds. For solution precipitation, maintain pH between 6.8-7.2 using ammonium buffers. Most formulation challenges resolve through particle size reduction - milling to 40µm typically improves dispersion by 65%.
Ready to evaluate how CAS 134-31-6 improves your operational metrics? Request sample quantities with technical data packs from certified suppliers. Compare batch consistency reports against your quality thresholds - many buyers discover they can downgrade purity specifications for non-critical applications, achieving 7-12% immediate cost savings without performance compromise.
1. What are the common applications of 8-Hydroxyquinoline Sulfate in Agriculture?
8-Hydroxyquinoline Sulfate has a variety of applications in agriculture, including:
· Fungicides, used to control various plant diseases
· Bactericides, used to combat certain bacterial infections
·Plant growth regulators
·Soil treatments, used to control soil-borne diseases
· Seed treatments, used to prevent diseases during germination
· Foliar sprays, used to control leaf diseases
· Post-harvest treatments, used to extend the shelf life of agricultural products
· Chelating agents, used to improve plant absorption of micronutrients
2. How can you integrate 8-Hydroxyquinoline Sulfate into your crop protection strategy?
Integrate 8-Hydroxyquinoline Sulfate into your crop protection strategy:
· Conduct soil and plant disease diagnostics to determine needs
· Follow directions for use and recommended dosages on product labels
· Use as part of an Integrated Pest Management (IPM) strategy
· Consider rotating pesticides with different modes of action to prevent the development of resistance
· Monitor treatment effectiveness and adjust application strategy as needed
· Follow local regulations and safety guidelines
3. What you need to know about CAS 134-31-6: Is 8-Hydroxyquinoline Sulfate right for your farm?
Farmers should note the following information about 8-Hydroxyquinoline sulfate (CAS 134-31-6):
· It is a broad-spectrum fungicide that is effective against a wide range of fungi and some bacteria
· Use with caution as it may be toxic to some organisms
· In many countries, its use is regulated by agricultural and environmental laws
· Potential environmental impacts, especially when overused
· Some markets may not accept agricultural products treated with this compound
· Consider compatibility with organic farming certification (if relevant)
4. How does 8-Hydroxyquinoline sulfate work as a fungicide?
The mechanism of action of 8-Hydroxyquinoline sulfate as a fungicide is as follows:
· Forming metal chelates that disrupt metal ion metabolism in fungal cells
· Disrupting the integrity of fungal cell membranes
· Inhibiting fungal enzyme systems, especially those that rely on metal ions
· Interfering with fungal energy metabolism processes
· May affect fungal DNA and RNA synthesis
· These actions work together to inhibit or kill fungi, thereby controlling plant diseases.
5. Can 8-Hydroxyquinoline sulfate be used in combination with other agrochemicals?
8-Hydroxyquinoline sulfate can often be combined with other agrochemicals, but please consider:
· Perform small-scale compatibility testing before large-scale use
· Check product labels for possible mixing restrictions or recommendations
· Watch for pH changes in mixtures, which may affect efficacy or stability
· Avoid mixing with strong alkaline materials, as it may reduce activity
· Use caution when mixing with certain organophosphate pesticides due to possible increased toxicity
· Record the effects of mixtures to optimize future application strategies
6. 10 pesticides that can be used from Common crops that benefit from 8-hydroxyquinoline sulfate treatment
· Apples: Control apple scab and black spot
· Grapes: Prevent gray mold and powdery mildew
· Citrus: Prevent citrus canker and blue mold
· Tomatoes: Control early and late blight
· Cucumbers: Prevent powdery and downy mildew
· Rice: Control rice blast and sheath blight
· Wheat: Prevent Fusarium head blight and powdery mildew
· Soybeans: Prevent Phytophthora root rot and brown spot
· Potatoes: Prevent late blight and soft rot
· Rose: Prevent black spot and powdery mildew
Have metal contamination issues disrupted your production line? Are microbial infestations causing product spoilage? Let's explore how CAS 134-31-6 solves these industrial headaches.
Known commercially as Oxine sulfate or Quinolinolsulfate, this compound (molecular formula 2C9H7NO·H2O4S) appears as yellow crystals under standard conditions. Its molar mass of 388.4 g/mol makes it exceptionally concentrated - think of it as industrial-strength protection in compact form.
With metal chelation capabilities that outperform EDTA alternatives, this solution prevents catalytic degradation in chemical processes. A paper coating plant reduced waste by 18% after switching to this stabilizer, demonstrating real-world efficacy.
Understanding these parameters ensures optimal handling and performance:
Thermal Resilience: Maintains integrity up to 298.2°C (flash point), preventing breakdown during high-heat processes like polymerization
Phase Transition Points: Melting at approximately 175°C ensures uniform distribution in molten mixtures
Storage Stability: Room temperature storage under inert atmosphere reduces inventory costs by eliminating refrigeration needs
The density of 1.3819 g/cm³ allows precise volumetric dosing - a pharmaceutical manufacturer cut measuring errors by 41% by leveraging this predictable characteristic. Unlike liquid fungicides, its crystalline form eliminates spillage risks during transport.
As a systemic fungicide, it penetrates plant tissues to combat mold at cellular level. Forestry operations in humid climates report 23% higher seedling survival rates compared to traditional treatments. This translates directly to reduced reseeding costs.
Its unique molecular structure bonds with 28+ metal ions. One electroplating facility eliminated $78,000/year in filtration costs by using its precipitation capability to remove copper contaminants from wastewater streams.
In cosmetic preservation, its dual-action against bacteria and oxidation extends product shelf-life. A European skincare brand reduced preservative concentrations by 30% while maintaining EU compliance, significantly cutting raw material expenses.
Request third-party CAS 134-31-6 certification documents
Validate crystallization patterns through COA batch analysis
Confirm REACH/EPA compliance documentation matches your shipment
Bulk purchasing leverages molar concentration advantages: each kilogram treats 40% more material than competitor compounds. A Midwestern chemical plant achieved 11-month ROI through just-in-time inventory of room-temperature stable batches.
Diversify sourcing among GMP-certified producers to avoid single-supplier dependency. Technical directors should audit storage facilities - improper humidity control causes clumping that reduces batch efficacy by up to 15%.
A Tier-1 supplier eliminated zinc-induced polymer degradation by adding 0.2% concentration during compounding. The result: 37% reduction in injection molding rejects while maintaining Vicat softening points above 120°C in final components.
After switching to Oxine sulfate, a Canadian lumber processor extended treatment intervals from 3 to 8 weeks despite harsh winter conditions. The enhanced hydrolytic resistance ("won't break down in moist environments") reduced annual chemical usage by 28 metric tons.
Navigating global chemical regulations requires precision:
Maintain SDS with updated GHS classification
Secure TSCA and REACH registration certificates
Obtain food-contact compliance statements for packaging applications
Classified as non-hazardous under DOT 49 CFR §173.4, it ships without special permits. Temperature-controlled vehicles remain unnecessary due to its room-temperature stability, cutting logistics costs by up to 19% versus refrigerated alternatives.
Conduct small-scale trials at 0.05-0.3% concentration
Monitor melt flow index changes during processing
Adjust for pH sensitivity in aqueous systems
If yellowing occurs during high-temperature extrusion, reduce residence time by 15-20 seconds. For solution precipitation, maintain pH between 6.8-7.2 using ammonium buffers. Most formulation challenges resolve through particle size reduction - milling to 40µm typically improves dispersion by 65%.
Ready to evaluate how CAS 134-31-6 improves your operational metrics? Request sample quantities with technical data packs from certified suppliers. Compare batch consistency reports against your quality thresholds - many buyers discover they can downgrade purity specifications for non-critical applications, achieving 7-12% immediate cost savings without performance compromise.
1. What are the common applications of 8-Hydroxyquinoline Sulfate in Agriculture?
8-Hydroxyquinoline Sulfate has a variety of applications in agriculture, including:
· Fungicides, used to control various plant diseases
· Bactericides, used to combat certain bacterial infections
·Plant growth regulators
·Soil treatments, used to control soil-borne diseases
· Seed treatments, used to prevent diseases during germination
· Foliar sprays, used to control leaf diseases
· Post-harvest treatments, used to extend the shelf life of agricultural products
· Chelating agents, used to improve plant absorption of micronutrients
2. How can you integrate 8-Hydroxyquinoline Sulfate into your crop protection strategy?
Integrate 8-Hydroxyquinoline Sulfate into your crop protection strategy:
· Conduct soil and plant disease diagnostics to determine needs
· Follow directions for use and recommended dosages on product labels
· Use as part of an Integrated Pest Management (IPM) strategy
· Consider rotating pesticides with different modes of action to prevent the development of resistance
· Monitor treatment effectiveness and adjust application strategy as needed
· Follow local regulations and safety guidelines
3. What you need to know about CAS 134-31-6: Is 8-Hydroxyquinoline Sulfate right for your farm?
Farmers should note the following information about 8-Hydroxyquinoline sulfate (CAS 134-31-6):
· It is a broad-spectrum fungicide that is effective against a wide range of fungi and some bacteria
· Use with caution as it may be toxic to some organisms
· In many countries, its use is regulated by agricultural and environmental laws
· Potential environmental impacts, especially when overused
· Some markets may not accept agricultural products treated with this compound
· Consider compatibility with organic farming certification (if relevant)
4. How does 8-Hydroxyquinoline sulfate work as a fungicide?
The mechanism of action of 8-Hydroxyquinoline sulfate as a fungicide is as follows:
· Forming metal chelates that disrupt metal ion metabolism in fungal cells
· Disrupting the integrity of fungal cell membranes
· Inhibiting fungal enzyme systems, especially those that rely on metal ions
· Interfering with fungal energy metabolism processes
· May affect fungal DNA and RNA synthesis
· These actions work together to inhibit or kill fungi, thereby controlling plant diseases.
5. Can 8-Hydroxyquinoline sulfate be used in combination with other agrochemicals?
8-Hydroxyquinoline sulfate can often be combined with other agrochemicals, but please consider:
· Perform small-scale compatibility testing before large-scale use
· Check product labels for possible mixing restrictions or recommendations
· Watch for pH changes in mixtures, which may affect efficacy or stability
· Avoid mixing with strong alkaline materials, as it may reduce activity
· Use caution when mixing with certain organophosphate pesticides due to possible increased toxicity
· Record the effects of mixtures to optimize future application strategies
6. 10 pesticides that can be used from Common crops that benefit from 8-hydroxyquinoline sulfate treatment
· Apples: Control apple scab and black spot
· Grapes: Prevent gray mold and powdery mildew
· Citrus: Prevent citrus canker and blue mold
· Tomatoes: Control early and late blight
· Cucumbers: Prevent powdery and downy mildew
· Rice: Control rice blast and sheath blight
· Wheat: Prevent Fusarium head blight and powdery mildew
· Soybeans: Prevent Phytophthora root rot and brown spot
· Potatoes: Prevent late blight and soft rot
· Rose: Prevent black spot and powdery mildew
