Why Choose Us
Our Partners
Our company has currently served nearly 600 customers worldwide, covering Southeast Asia, South Asia, the Middle East, Eastern Europe and part of South America.
R&D Center
Adheres to our R&D-driven strategy, and has established two R&D center in Nangjing and Yangzhou.
Wide Range Of Products
We have an extensive range of products. The surfactant range consists of dispersing agents, wetting agents, emulsifiers, tank-mix adjuvant and other additives.
Independent Research And Development
Our proprietary technology' polycarboxylate polymer dispersant synthesized by controlled polymerisation technology' is in the leading position in China.
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Emulsifier SP-OD433
(Universal Emulsifier for Methyl Oleate Based OD)SP-OD433 is a non-anionic compound. Specially Add to Inquiry -
Emulsifier SP-DD18
(Designed for Vegetable Oil Based OD)SP-DD18 is an environmentally-friendly emulsifier polymerized Add to Inquiry -
Dispersant SP-OD488
(Reduce Viscosity, Inhibit Crystal Growth)SP-OD488 is a polymeric surfactant with comb structure, Add to Inquiry -
Nicosulfuron + Atrazine
Due to quality fluctuation of Nicosulfuron, Nicosulfuron + atrazine is prone to viscosity increase Add to Inquiry -
Cyhalofop-Butyl
Cyhalofop-butyl is a herbicide used to control grass weeds in various crops, such as rice, wheat, Add to Inquiry -
Nicosulfuron 40
The difficulty in the preparation of Nicosulfuron 40 OD is the poor emulsification and dispersion, Add to Inquiry -
Mesosulfuron
Mesosulfuron is a selective herbicide that belongs to the sulfonylurea herbicide group. It is Add to Inquiry -
Penoxsulam 2.5 OD
Penoxsulam 2.5 OD is an herbicide that is used to control various types of weeds and grasses in Add to Inquiry
What is Cyhalofop-Butyl?
Cyhalofop-butyl (Cyhalofop-butyl) is a selective herbicide belonging to the aryloxyphenoxypropionate class. It is primarily used for post-emergence control of grass weeds in rice fields. The active ingredient in cyhalofop-butyl targets the enzyme acetolactate synthase (ALS), which is crucial for the synthesis of branched-chain amino acids in plants.
What Factors Drive Cyhalofop-butyl Market Growth?
Technological Advancements: Continuous innovation and advancements in technology play a crucial role in expanding the Cyhalofop-butyl Market. New technologies often lead to improved products, increased efficiency, and enhanced customer experiences, driving demand and market growth.
Increasing Consumer Demand: Growing consumer awareness and demand for Cyhalofop-butyl products/services contribute significantly to market expansion. As consumers seek more sustainable, efficient, or advanced solutions, companies respond by innovating and expanding their offerings.
Regulatory Support and Initiatives: Supportive regulatory frameworks and government initiatives can catalyze market growth by promoting investments, reducing barriers to entry, and fostering innovation in the Cyhalofop-butyl sector.
Emerging Markets and Opportunities: Expansion into new geographical markets or tapping into emerging sectors within the Cyhalofop-butyl industry provides opportunities for growth. Companies that identify and capitalize on these emerging trends can gain a competitive edge and expand their market presence.
Strategic Partnerships and Collaborations: Collaborations and partnerships between industry players, research institutions, and technology providers can drive innovation and accelerate market growth. These partnerships often enable companies to leverage complementary strengths and resources to develop new products or enter new markets.
Market Overview and Report Coverage of Cyhalofop-Butyl
Cyhalofop-butyl is a herbicide that is widely used in agriculture to control grass weeds in crops such as rice, wheat, corn, and soybeans. It belongs to the aryphenoxypropionate group of herbicides and offers effective and selective control over various grass weed species.
The future outlook of the Cyhalofop-butyl market looks promising due to the increasing demand for crop protection chemicals and the rising adoption of modern farming techniques. As the global population continues to grow, the need to enhance agricultural productivity and protect crop yields becomes more critical. Cyhalofop-butyl is an essential tool for farmers to reduce weed interference and maximize crop yield.
Moreover, the current outlook of the Cyhalofop-butyl market is positive, with steady growth expected in the coming years. The market is driven by factors such as the expansion of agricultural land, the need for higher crop productivity, and the rise in weed resistance to other herbicides. Additionally, the increasing awareness about the benefits of using herbicides for weed control is further fueling the market growth.
The Cyhalofop-butyl Market is expected to grow at a CAGR of % during the forecasted period. This growth can be attributed to the strong demand from key agricultural regions, including Asia-Pacific, North America, and Europe. These regions have a significant dependence on agriculture for food security and are witnessing the adoption of advanced farming practices.
The Cyhalofop-butyl market is poised for significant growth in the coming years. The increasing need for crop protection and the rising adoption of modern agricultural techniques are driving the market's expansion. With a projected CAGR of %, the market is expected to flourish, particularly in key agricultural regions.
Usage and precautions of Cyhalofop-Butyl
Usage of cyhalofop-butyl
Cyhalofop-butyl is a commonly used herbicide and can be widely used for weeding crops. The specific usage is as follows:
- When using, you should choose to apply the pesticide between the jointing stage and the booting stage of rice, preferably about 3-5 days before the rice pollen is released. During this period of time, the filaments of rice have not yet been exposed, which can avoid damage to the grass crown and help improve the effect of cyhalofop-butyl.
- Before applying the pesticide, weeds such as straw in the rice field should be cleared, and then pre-wetting should be performed.
- Mix cyhalofop-butyl with clean water according to the recommended dilution ratio and spray evenly in the rice field. It should be noted that when using cyhalofop-butyl, you must wear a protective mask and gloves to avoid contact with the drug and cause harm to the body.
Effect of Cyhalofop-butyl in the Rice Booting Stage
Using Cyhalofop-butyl in the rice booting stage can effectively remove weeds and improve rice yield and quality, but the following points should be noted:
- During the application period, the temperature should be avoided to avoid excessively high temperatures to prevent the volatilization of cyhalofop-butyl from accelerating and affecting the efficacy.
- When applying cyhalofop-butyl, care should be taken not to spray it on non-target crops to avoid affecting the surrounding environment.
- In the process of using cyhalofop-butyl, it is necessary to strictly follow the instructions for use and pay attention to the storage and safety of the drug.
Precautions
When using cyhalofop-butyl, the following issues should be noted:
- To avoid the drug from causing harm to the human body, protective masks and gloves should be worn during use.
- The drug should be mixed strictly according to the proportion according to the instructions of the drug to avoid excessive use or insufficient concentration resulting in poor results.
- When using cyhalofop-butyl, care should be taken not to cause unnecessary pollution and impact on the surrounding environment. Always use the medicine strictly according to the instructions and store unused medicine properly.
What is Mesosulfuron?
Metsulfuron-methyl is a residual sulfonylurea herbicide that kills broadleaf weeds and some annual grasses. It is a systemic compound with foliar and soil activity, that inhibits cell division in shoots and roots. It has very low toxicity to mammals, birds, fish, and insects, but is a moderate eye irritant.
Metsulfuron-Methyl Instructions For Use
The mechanism of action is similar to that of chlorsulfuron-methyl. It is absorbed through the roots, stems and leaves of plants and quickly transmitted in the body, inhibiting the activity of acetolactate synthase (ALS), resulting in the obstruction of valine and isoleucine biosynthesis, thereby causing growth inhibition and death. After absorption by resistant crop wheat, benzene ring hydroxylation occurs in the body, and this hydroxylation product quickly forms a conjugate with glucose, thus losing its activity. Degradation in soil Metsulfuron-methyl disappears in the soil through hydrolysis and microbial degradation, with a half-life of 4 weeks. In acidic soil, due to rapid hydrolysis, it decomposes slightly faster; its effective period in the soil is shorter than that of chlorsulfuron-methyl. The effective dose is 2 and 8 grams per hectare. After 7 and 44 weeks after application, the residual amount can no longer be detected, so it is safer for subsequent crops than chlorsulfuron-methyl.
Distribution of Metsulfuron-methyl in Nile tilapia Using 14C-labeled metsulfuron-methyl as a tracer and Oreochromis niloticus as a model organism, the accumulation of metsulfuron-methyl in the water body of Nile tilapia was investigated. The average values of the radioactivity of metsulfuron-methyl in various parts of Nile tilapia at 45 days are shown in Figure 1. The specific activity of radioactive substances in various parts of the fish body is as follows: gills > scales, fins > viscera > bones > head > muscles. Bioaccumulation is the main way for organic pollutants to enter the fish body. About 67% of organic pollutants will biomagnify in the fish body. The gills are the main respiratory organs of Nile tilapia. The specific structure of the gills increases the contact area between the gills and water. During the breathing process of the fish, a large amount of water flows through the gills continuously, causing the radioactive markers in the water to enter the gills. The research ofet al. confirmed that gills are important organs for fish to absorb pesticides in water. Most of 1,2,3,4-tetrachlorobenzene enters the body of salmon and trout through gills.
The radioactivity specific activity of Nile tilapia scales and fins is also high, which may be due to the direct contact of fins and scales with the external water environment. There are a large number of single-cell mucus glands distributed in the epidermis of fish, which can continuously secrete mucus to the body surface. Metsulfuron-methyl may be partially adsorbed in the mucus. Although the radioactivity specific activity in the viscera of Nile tilapia is lower than that in gills, fins and scales, it is significantly higher than other parts of the fish. The viscera are the most metabolically active organs of fish. Substances entering the fish body are mainly absorbed and redistributed through the viscera.
How to use metsulfuron-methyl
Choose the right time
Metsulfuron-methyl is best used when weeds are lush. At this time, plants are in an active growth period and absorb metsulfuron-methyl faster and more effectively.
Control the dosage
When using metsulfuron-methyl, you should pay attention to controlling the dosage. Excessive use will cause unnecessary damage to crops and the environment.
How to use
Add metsulfuron-methyl to water and stir evenly, then add a small amount of surfactant to allow it to adhere evenly to the leaf surface. Then use a sprayer to spray evenly on the leaves and stems of weeds.
Strengthen precautions
When using metsulfuron-methyl, you must comply with relevant regulations and strictly control the dosage. Wear gloves and masks when using to avoid contact and inhalation of metsulfuron-methyl to avoid harm to the human body.
Effect Of Mesosulfuron
Metsulfuron-methyl, also known as MSM, is a sulfonylurea herbicide (WSSA group 2) that is used to control broadleaf weeds and certain grass weeds (including bahiagrass) postemergence in bermudagrass, St. Augustine, and other warm season turfgrasses. Metsulfuron-methyl is a very popular herbicide because it provides effective control of some of the most problematic turfgrass weeds, such as wild garlic (Allium vineale), Florida betony (Stachys floridana), dollar weed (Hydrocotyle umbellata), and small Virginia buttonweed (Diodia virginiana). It is usually formulated as a dispersible granule containing 60% of the active ingredient. The use rates are much lower than for most turf herbicides, ranging from 0.25 to 1 ounce of formulated product per acre, depending on the weed species to be controlled.
Metsulfuron-methyl is a systemic herbicide (meaning that it is translocated and moves throughout the plant) that inhibits the production of three essential amino acids that plants need in order to survive. When susceptible weeds are treated, injury symptoms like chlorosis (yellowing of foliage) and necrosis (brown or black dying foliage) usually appear within one to two weeks after application (Figure 2). Metsulfuron-methyl is absorbed by plant foliage, so if ornamentals come into contact with the spray or drift, injury is likely to result. However, metsulfuron-methyl has low drift potential when label precautions are followed, and off-target movement does not appear to be the primary cause of injury on ornamental plants.
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With sustainable innovation and timely technical support strategy, SINVOCHEM has gained good reputation as main supplier for formulators in China. Backed by a high-efficient R&D team and well-constructed lab platform, SINVOCHEM succeeds in setting customized services as priority. Now SINVOCHEM maintain a good relationship with top 70% domestic formulators and main agro institutes. In recent years, SINVOCHEM also has successfully promoted overseas market by collaboration with MNCs and leading distributors. SINVOCHEM offers an all-in solution over pesticide formulating, contributing to dose reduction and efficacy improvement.
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