Herbicide

Herbicides refer to the agents that can completely or selectively cause the death of weeds, and they are also known as weed killers. Herbicides are divided into inorganic compound types and organic synthetic types. Herbicides should possess characteristics such as high efficiency, selectivity, and convenience in use. Some herbicides, such as paraquat, can function by inhibiting the photosynthesis of weeds, blocking the photosynthetic electron transfer or inhibiting the synthesis of photosynthetic pigments. Some herbicides, such as naphthalene acetic acid, can interfere with the hormonal balance of plants, leading to abnormal growth and death of weeds. There are also some herbicides that can inhibit plant cell division or amino acid synthesis. Herbicides are widely applied in agricultural farmlands, garden green spaces, along roads and railways, industrial sites, etc., to control weeds, so as to ensure the growth of crops, maintain the landscape environment, and reduce potential safety hazards such as fires^[1]^[2].

References:

[1]. Torra J, et al. Molecular Mechanisms of Herbicide Resistance in Weeds. Genes (Basel). 2022 Nov 3;13(11):2025. [Content Brief]

[2]. Duke SO. Overview of herbicide mechanisms of action. Environ Health Perspect. 1990 Jul;87:263-71. [Content Brief]

Herbicide Related Products (525):

By Effects:	Inhibitors (13) Controls (2) Chemical (1)

Cat. No.	Product Name	Effect	Purity	Chemical Structure

HY-116425

N-1-Naphthylphthalamic acid		99.97%
N-1-Naphthylphthalamic acid (Alanap 1) is a modulator of polar auxin transport that competes with auxin (indole-3-acetic acid, IAA) for membrane binding sites. N-1-Naphthylphthalamic acid also disrupts maize leaf initiation, KNOX protein regulation, and leaf margin formation.

HY-134094

Fluridone		99.93%
Fluridone is a herbicide, particularly to eliminate aquatic plant growth in water reservoirs and irrigation channels. Fluridone is a potent Abscisic acid (ABA) biosynthesis inhibitor, and has anti-inflammatory effects.

HY-147092

Oryzalin		99.62%
Oryzalin is a dinitroaniline herbicide with antimitotic and antileishmanial activities. Oryzalin can bind to plant tubulin, inhibit the polymerization of microtubules in plant cells, and affect chromosome migration. Oryzalin can also be used to induce chromosome doubling.

HY-W019870

Glufosinate ammonium		99.29%
Glufosinate ammonium, a phosphinic acid analogue of glutamic acid, is an herbicide which is converted by plant cells into PT (L-phosphinothricin). Glufosinate ammonium exerts neurotoxic activity.

HY-18572

2,4-D		99.92%
2,4-D (2, 4-dichlorophenoxyacetic acid) is a selective herbicide that can be used for the control of broad-leaved weeds. 2,4-D can induce apoptosis. 2,4-D inhibits DNA and protein synthesis, thereby preventing normal plant growth and development.

HY-180685

N-Acetyldemethylphosphinothricin tripeptide
N-Acetyldemethylphosphinothricin tripeptide, a peptide antibiotic, is a compound with herbicidal activity. N-Acetyldemethylphosphinothricin tripeptide consists of the unusual amino acid phosphinothricin (PT) and two alanine residues. N-Acetyldemethylphosphinothricin tripeptide penetrates bacterial cells as a prodrug via peptide uptake systems with subsequent release of PT.

HY-N9715

4-Chloropinselin
4-Chloropinselin is a chlorine-containing xanthone herbicide that can be isolated from Alternaria sonchi. 4-Chloropinselin is a biosynthetic precursor or degradation product of chloromonilicin and exhibits phytotoxic and antimicrobial activity. 4-Chloropinselin can inhibit the growth of weeds such as field sowthistle and suppress the proliferation of certain microorganisms.

HY-B1842S1

Fluroxypyr-d₂
Fluroxypyr-d₂ is the deuterium labeled Fluroxypyr (HY-B1842). Fluroxypyr is an auxin herbicide to control annual or perennial weeds. Fluroxypyr icauses auxin overdose or excessive endogenous auxin concentrations, thereby resulting in an imbalance of auxin homeostasis and interaction with other hormones in tissues.

HY-122464

(±)-Jasmonic acid	Inhibitor	99.88%
(±)-Jasmonic acid is an endogenous growth regulator closely related to plant resistance to abiotic stresses, used to activate defense responses to wounding, herbivory, and pathogen attacks. (±)-Jasmonic acid does not play an independent regulatory role, but works in a complex signaling network with other plant hormone signaling pathways. In addition, (±)-Jasmonic acid can also reduce chlorophyll levels in green and etiolated barley leaf segments and inhibit the elongation of rice seedlings.

HY-136372

Diquat dibromide hydrate		99.92%
Diquat dibromide hydrate is a comprehensive herbicide. Diquat dibromide hydrate increases the production of ROS and triggers mitophagy. Diquat dibromide hydrate generates free radicals such as superoxide anions through redox cycles, which induce oxidative stress. Diquat dibromide hydrate is cytotoxic, reproductive, and neurotoxic. Diquat dibromide hydrate is used in cotton, soybean, and other crops to combat noxious weeds.

HY-122984

Diquat dibromide		99.94%
Diquat dibromide is a comprehensive herbicide. Diquat dibromide increases the production of ROS and triggers mitochondrial Autophagy. Diquat dibromide generates free radicals such as superoxide anions through redox cycles, which induce oxidative stress. Diquat dibromide is cytotoxic, reproductive, and neurotoxic. Diquat dibromide is used in cotton, soybean, and other crops to combat noxious weeds.

HY-N7091

Atrazine		99.32%
Atrazine, a triazine herbicide, is principally used for control of certain annual broadleaf and grass weeds. Atrazine inhibits photophosphorylation but typically does not result in lethality or permanent cell damage in the short term.

HY-21170B

Trifluoromethanesulfonate lithium		99.9%
Trifluoromethanesulfonate (Triflate;Trifluoromethylsulfonate) lithium is a stable lithium salt and dopant with four resonance states, which is commonly used as an electrolyte component in polymer light-emitting electrochemical cells and primary lithium batteries. Trifluoromethanesulfonate lithiumalso acts as a catalyst for the preparation of the herbicide Imazapyr. In MEH-PPV-based light-emitting electrochemical cells, Trifluoromethanesulfonate lithium promotes electrochemical p-type doping at the anode interface under applied bias, thereby facilitating the formation of p-i-n junctions, exciton generation, and light emission. Trifluoromethanesulfonate lithiumexhibits strong ion pairing in non-aqueous electrolytes, but its electrochemical stability window is narrower than that of lithium bistrifluoromethylsulfonyl imidee.

HY-B0860

Diuron		99.08%
Diuron is an orally active phenylurea herbicide. Diuron inhibits photosynthesis in plants by blocking the formation of ATP and NADH. Diuron increases the production of ROS. Diuron increases expression of p53 in certain cell lines. Diuron has herbicidal activity against annual and perennial broadleaf weeds and grass weeds. Diuron promotes DMBA/BBN-induced bladder cancer. Diuron can be used in breast cancer research.

HY-121267

Dicamba		99.95%
Dicamba is a herbicide. Dicamba is currently used in agriculture and gardening to control the growth of different unwanted vegetable species, mainly in cereal grain crops, but also on sugar cane and soybeans, among others. Dicambais induces significant DNA damage. Dicambais induces genotoxicity and cytotoxicity.

HY-B2034

Picloram		99.59%
Picloram is a synthetic auxin herbicide that is widely used to control dicotyledonous weed.

HY-114849

Norflurazon		99.94%
Norflurazon (SAN 9789) is a bleaching herbicide. Norflurazon can block carotenoid biosynthesis by inhibiting phytoene desaturase activity.

HY-128075

Acifluorfen		98.95%
Acifluorfen, a protoporphyrinogen oxidase (PROTOX) inhibitor herbicide, promotes the accumulation of protoporphyrin IX (PPIX), and induces tumors in the rodent liver. Acifluorfen causes strong photooxidative destruction of pigments and lipids in sensitive plant species.

HY-W007371

Quinoline-8-carboxylic acid		99.71%
Quinoline-8-carboxylic acid is a herbicide.

HY-B2050

Trifluralin		98.0%
Trifluralin is a selective, preemergence, soil-applied herbicide providing control of many important annual grass and broadleaf weed species. Trifluralin prevents weed growth by inhibiting root development through the interruption of mitosis. Trifluralin binds to tubulin and results in the failure of spindle apparatus and cell plate formation. Trifluralin inhibits radicle development on roots. Trifluralin inhibits cell mitosis. Trifluralin is considered to be neurotoxic and haematotoxic.

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