3-Indolebutyric Acid CAS 133-32-4 is necessary for plant growth. It appears as white or light yellow crystals. This compound is effective in promoting root development.
This product has multiple synonyms. These include indole-3-butyric acid and IBA. Its molecular formula is C12H12NO2 and its molecular weight is 202.2297.
When storing, keep it at 2-8°C. This temperature range helps maintain product stability.
3-Indolebutyric acid acts as a plant growth stimulant. It promotes the growth of plant taproots. This process significantly increases germination and survival rates.
The density of this compound is approximately 1.1255. Its melting point range is 124-125.5°C. The boiling point is estimated to be 341.55°C.
3-Indolebutyric acid is soluble in ethanol, ether and acetone. It has limited solubility in water (0.25g/L).
This product is stable but sensitive to air and light. It is incompatible with strong oxidizing agents.
Overall, plant health and yields are enhanced with the use of 3-indolebutyric acid. It is ideal for agricultural and horticultural applications.
3-Indolebutyric acid (abbreviated as IBA, CAS No. 133-32-4) is a chemical substance with both natural alkaloid properties and plant growth regulation functions. It appears as a white to pale yellow crystalline powder with a uniform texture and no obvious odor. Its molecular structure is stable, with a core molecular formula of C₁₂H₁₃NO₂ and a molecular weight of 203.237. As a typical auxin-like compound, it possesses dual chemical activities of "regulating plant growth and promoting organ development" and is widely used in agriculture, horticulture, and scientific research fields. This substance is light-sensitive and requires storage under specific conditions. It has passed the internationally recognized GHS safety standards certification, with clear risk levels and protection requirements specified to ensure safety and compliance during use.
As a high-quality rooting agent, it can specifically activate the root growth genes of plants. It not only promotes rapid rooting of herbaceous plants (such as flowers and vegetable seedlings) but also adapts to cutting and transplanting scenarios of woody ornamental plants (such as cherry blossoms and osmanthus). It significantly improves the germination rate and survival rate of roots, addressing the pain points of "slow rooting and easy root rot" in traditional seedling cultivation.
Beyond the single function of "promoting rooting", it can synchronously regulate the plant growth cycle—it can improve seed germination rate to ensure uniform and robust seedlings, and also function during the flowering and fruiting stages of crops, reducing flower and fruit drop. It achieves the triple value of "root promotion + seedling protection + yield increase" and lowers planting costs.
It remains stable under storage conditions of 2-8℃, hardly decomposing, and has good compatibility with non-strong oxidizing substances, facilitating long-term storage. Although it is poorly soluble in water (solubility of 250mg/L at 20℃), it can be easily dissolved in common organic solvents such as benzene, ether, acetone, and alcohols. Concentration can be flexibly adjusted according to actual needs, resulting in low operational thresholds.
The density is stably at 1.3±0.1g/cm³, the melting point is experimentally verified as 124-125.5℃, the boiling point reaches 426.6±20.0℃ (at 760mmHg), and the flash point is 211.8±21.8℃. The fluctuation range of key physical indicators is small, facilitating industrial production and quality control.
Compliant with GHS safety standards, the signal word is marked as "Danger", clearly indicating risks such as "toxic if swallowed, skin/eye irritation, and respiratory irritation". It is also accompanied by detailed hazard statements (H301, H315, H319, H335) to provide clear guidance for safe operation.
Although it has certain hazards to aquatic organisms (rainbow trout LC₅₀>90.5mg/L, Daphnia magna EC₅₀=57mg/L), ecological risks can be minimized by strictly following usage specifications and avoiding direct discharge into water bodies, meeting the requirements of environmentally friendly agricultural production.
Used in cutting seedling cultivation of vegetables (tomatoes, cucumbers) and fruit trees (apples, citrus fruits). After dipping roots or spraying with IBA solution, the rooting cycle can be shortened by 30%-50%. Diluted foliar spraying during the fruiting period of fruit trees can increase the fruit setting rate by 15%-20% without affecting fruit quality.
For transplanting ornamental flowers (roses, lilies) and greening seedlings (cedars, Platycladus orientalis), pre-treating roots with IBA solution can enhance the root system's ability to absorb water and nutrients, reducing transplant mortality, especially suitable for stress protection during seasonal transplanting (such as spring and autumn).
As a biochemical reagent, it is used in plant physiology research, such as exploring "the regulatory mechanism of auxins on root development" and "molecular pathways of plant organ differentiation". It can adapt to research directions such as "signal pathways - others" and "natural products - alkaloids", providing reliable experimental materials for scientific research.
1. What is the use of 3-Indolebutyric Acid ?
3-Indolebutyric Acid is mainly used as a plant growth stimulant. It promotes root development and improves germination and survival rates.
2. How should I store 3-Indolebutyric Acid?
Store 3-Indolebutyric Acid at a temperature between 2-8°C to maintain its stability and effectiveness.
3. Is 3-Indolebutyric Acid safe for the environment?
Yes, 3-Indolebutyric Acid is safe for both plants and the environment when used at the recommended concentrations.
4. Can 3-Indolebutyric Acid be used with other products?
A4: It is recommended to test compatibility with other products before mixing to avoid adverse reactions.
5. What are the benefits of using 3-Indolebutyric Acid?
This compound promotes plant growth, improves survival rates at transplanting, and improves the quality and yield of crops.
3-Indolebutyric Acid CAS 133-32-4 is necessary for plant growth. It appears as white or light yellow crystals. This compound is effective in promoting root development.
This product has multiple synonyms. These include indole-3-butyric acid and IBA. Its molecular formula is C12H12NO2 and its molecular weight is 202.2297.
When storing, keep it at 2-8°C. This temperature range helps maintain product stability.
3-Indolebutyric acid acts as a plant growth stimulant. It promotes the growth of plant taproots. This process significantly increases germination and survival rates.
The density of this compound is approximately 1.1255. Its melting point range is 124-125.5°C. The boiling point is estimated to be 341.55°C.
3-Indolebutyric acid is soluble in ethanol, ether and acetone. It has limited solubility in water (0.25g/L).
This product is stable but sensitive to air and light. It is incompatible with strong oxidizing agents.
Overall, plant health and yields are enhanced with the use of 3-indolebutyric acid. It is ideal for agricultural and horticultural applications.
3-Indolebutyric acid (abbreviated as IBA, CAS No. 133-32-4) is a chemical substance with both natural alkaloid properties and plant growth regulation functions. It appears as a white to pale yellow crystalline powder with a uniform texture and no obvious odor. Its molecular structure is stable, with a core molecular formula of C₁₂H₁₃NO₂ and a molecular weight of 203.237. As a typical auxin-like compound, it possesses dual chemical activities of "regulating plant growth and promoting organ development" and is widely used in agriculture, horticulture, and scientific research fields. This substance is light-sensitive and requires storage under specific conditions. It has passed the internationally recognized GHS safety standards certification, with clear risk levels and protection requirements specified to ensure safety and compliance during use.
As a high-quality rooting agent, it can specifically activate the root growth genes of plants. It not only promotes rapid rooting of herbaceous plants (such as flowers and vegetable seedlings) but also adapts to cutting and transplanting scenarios of woody ornamental plants (such as cherry blossoms and osmanthus). It significantly improves the germination rate and survival rate of roots, addressing the pain points of "slow rooting and easy root rot" in traditional seedling cultivation.
Beyond the single function of "promoting rooting", it can synchronously regulate the plant growth cycle—it can improve seed germination rate to ensure uniform and robust seedlings, and also function during the flowering and fruiting stages of crops, reducing flower and fruit drop. It achieves the triple value of "root promotion + seedling protection + yield increase" and lowers planting costs.
It remains stable under storage conditions of 2-8℃, hardly decomposing, and has good compatibility with non-strong oxidizing substances, facilitating long-term storage. Although it is poorly soluble in water (solubility of 250mg/L at 20℃), it can be easily dissolved in common organic solvents such as benzene, ether, acetone, and alcohols. Concentration can be flexibly adjusted according to actual needs, resulting in low operational thresholds.
The density is stably at 1.3±0.1g/cm³, the melting point is experimentally verified as 124-125.5℃, the boiling point reaches 426.6±20.0℃ (at 760mmHg), and the flash point is 211.8±21.8℃. The fluctuation range of key physical indicators is small, facilitating industrial production and quality control.
Compliant with GHS safety standards, the signal word is marked as "Danger", clearly indicating risks such as "toxic if swallowed, skin/eye irritation, and respiratory irritation". It is also accompanied by detailed hazard statements (H301, H315, H319, H335) to provide clear guidance for safe operation.
Although it has certain hazards to aquatic organisms (rainbow trout LC₅₀>90.5mg/L, Daphnia magna EC₅₀=57mg/L), ecological risks can be minimized by strictly following usage specifications and avoiding direct discharge into water bodies, meeting the requirements of environmentally friendly agricultural production.
Used in cutting seedling cultivation of vegetables (tomatoes, cucumbers) and fruit trees (apples, citrus fruits). After dipping roots or spraying with IBA solution, the rooting cycle can be shortened by 30%-50%. Diluted foliar spraying during the fruiting period of fruit trees can increase the fruit setting rate by 15%-20% without affecting fruit quality.
For transplanting ornamental flowers (roses, lilies) and greening seedlings (cedars, Platycladus orientalis), pre-treating roots with IBA solution can enhance the root system's ability to absorb water and nutrients, reducing transplant mortality, especially suitable for stress protection during seasonal transplanting (such as spring and autumn).
As a biochemical reagent, it is used in plant physiology research, such as exploring "the regulatory mechanism of auxins on root development" and "molecular pathways of plant organ differentiation". It can adapt to research directions such as "signal pathways - others" and "natural products - alkaloids", providing reliable experimental materials for scientific research.
1. What is the use of 3-Indolebutyric Acid ?
3-Indolebutyric Acid is mainly used as a plant growth stimulant. It promotes root development and improves germination and survival rates.
2. How should I store 3-Indolebutyric Acid?
Store 3-Indolebutyric Acid at a temperature between 2-8°C to maintain its stability and effectiveness.
3. Is 3-Indolebutyric Acid safe for the environment?
Yes, 3-Indolebutyric Acid is safe for both plants and the environment when used at the recommended concentrations.
4. Can 3-Indolebutyric Acid be used with other products?
A4: It is recommended to test compatibility with other products before mixing to avoid adverse reactions.
5. What are the benefits of using 3-Indolebutyric Acid?
This compound promotes plant growth, improves survival rates at transplanting, and improves the quality and yield of crops.
