Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
Hydride, as a hydrogen/energy carrier, is a research object that has long been the focus of researchers in the field of materials science on hydrogen and heat storage materials. Some characteristics of hydrides have conductivity and can serve as potential solid electrolytes. At the same time, hydrid
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1. Insecticide: Lithium borohydride can be used as one of the main components of some pesticides to kill pests. It has insecticidal effects and durability, and is widely used for pest control in agricultural production.
2. Herbicide: Lithium borohydride is also used in herbicides. It can achieve weed control effects by affecting the synthesis and growth of plant cell walls, inhibiting the growth and reproduction of weeds.
3. Antifungal agents: Lithium borohydride is also used in antifungal agents. It can be used to prevent and control plant diseases, inhibit the growth and reproduction of fungi, and improve the disease resistance of crops.
1. Pesticide additive: Low nitrogen calcium hydride can be used as an additive for pesticides to improve their performance. Its addition to pesticides can improve their dispersibility, stability, and adhesion, thereby enhancing their effectiveness and durability.
2. Inhibitor: Low nitrogen calcium hydride can be used as an inhibitor to control the release rate and duration of pesticides. It can regulate the release behavior of pesticides in soil or plants, making the use of pesticides more precise and efficient.
3. Soil remediation agent: Low nitrogen calcium hydride has a certain adsorption capacity and can be used as a soil remediation agent. It can adsorb and fix harmful substances in soil, reduce the pollution of pesticide residues on soil and the environment, and improve soil health and fertility.
4. Fruit tree protection: Low nitrogen calcium hydride can be used for fruit tree protection to suppress diseases and pests on fruit trees. It can serve as an environmentally friendly alternative to pesticides, reducing its impact on the environment and ecosystems.
1. Acid base regulator: Calcium hydride can be used as an acid base regulator in pesticide formulations to adjust the pH value and acid-base balance of pesticide formulations. Some pesticide components exhibit different stability and activity at different pH values. By adding an appropriate amount of calcium hydride to adjust the acidity and alkalinity of pesticide formulations, the stability and effectiveness of pesticides can be improved.
2. Extractant: Calcium hydride can be used as an extractant in pesticide formulations, playing an auxiliary role in extracting plant-based or other active ingredients. By combining with other solvents or extractants, the extraction efficiency and activity of pesticides can be improved.
3. Dispersant and dispersant: Calcium hydride can be used as a dispersant or dispersant in pesticide formulations to evenly disperse pesticide particles in water. The use of calcium hydride can prevent the sedimentation and agglomeration of pesticide particles, improve the stability of pesticide liquid and spray uniformity.