1、黄腐酸钾 CAS#:

黄腐酸钾是一种纯天然矿物质活性钾元素肥，黄腐酸钾内含微量元素、稀土元素、植物生长调节剂、病毒抑制剂等多种营养成分，使养分更充足、补给更合理，从而避免了作物因缺少元素而造成的各种生理性病害的发生，使作物株型更旺盛叶色更浓绿，抗倒伏能力更强。 ChemicalBook 致力于为化学行业用户提供黄腐酸钾的性质、化学式、分子式、比重、密度,同时也包括黄腐酸钾的沸点、熔点、MSDS、用途、作用、毒性、价格、生产厂家、用途、上游原料、下游产品等信息。

2、Potassium Fulvate

Potassium Fulvate | C14H11KO8 | CID 44633028 - structure, chemical names, physical and chemical properties, classification, patents, literature, biological activities, safety/hazards/toxicity information, supplier lists, and more.

3、Potassium Fulvate: Mineral

The two primary types— mineral-derived potassium fulvate (M-KF) and biochemical potassium fulvate (B-KF) —differ significantly in their sources, composition, stability, and application methods.

4、Comprehensive guide to potassium fulvate fertilizer: advanced

It is a natural mineral, and its main component is the decomposition product of potassium minerals such as potassium feldspar; Biochemical Potassium Fulvic Acid comes from living organisms, such as straw, extracted through fermentation.

5、Mineral Potassium Fulvate VS Biochemical Potassium Fulvate

The main components of biochemical potassium fulvate are proteins, polysaccharides, lignin and other substances. Although there are also functional groups in mineral source fulvic acid, the content is very small. 3. Market price comparison.

Biochemical Potassium Fulvate: A Key Ingredient for Sustainable

Biochemical potassium fulvate is an organic fertilizer rich in bioactive fulvic acids. It improves nutrient uptake, enhances soil structure, and promotes root growth. This fertilizer increases plant resistance to stress and boosts crop yields, supporting sustainable farming.

Characteristic function of potassium fulvate

Due to the high content of total amino acids, carboxyl groups, hydroxyl groups and other active groups, potassium biochemical fulvic acid also has oxygen-containing functional groups. There are many organic chelating sites and complexing sites in its structure.

Potassium Fulvate

Biochemical Potassium Fulvate contains protein, nucleotides, alcohols, fatty esters, phenolic acids, sugars, tannins, cellulose, and various hormones,which is unstable due to the fermentation...

黄腐酸钾，天然生物发酵，生化粉末全水溶

生化黄腐酸钾(Biochemical Potassium fulvate) 生化黄腐酸钾应用现代生物技术，以植物渣体为原料，经生物发酵，成功制取类煤化黄腐酸物质——高活性生化黄腐酸钾。

The difference between mineral potassium fulvate and biochemical

The two primary types— mineral-derived potassium fulvate (M-KF) and biochemical potassium fulvate (B-KF) —differ significantly in their sources, composition, stability, and application methods.

Biochemical potassium fulvate is an organic compound fertilizer with the main component being potassium fulvate. Potassium fulvate is a compound containing multiple organic acids, characterized by excellent biological activity and fertilizer efficacy. It can stimulate microbial activity in the soil, enhance water and nutrient retention capacity, and benefit plant growth.

The primary chemical components of biochemical potassium fulvate include:

1. Fulvic Acid: An organic acid with significant biological activity and fertilizing effects. It promotes microbial activity in soil, improves water-holding and nutrient-retaining capacities, and supports plant growth.

2. Potassium: An essential nutrient for plant growth, critical for photosynthesis, cell division, and overall plant development.

3. Phosphorus: A vital nutrient required for root development, fruit quality, and yield production.

4. Nitrogen: Essential for leaf growth, flower and fruit formation, and crop productivity.

5. Calcium: Crucial for stem and leaf development, fruit quality, and yield enhancement.

6. Magnesium: Supports root expansion, foliage health, and improved fruit characteristics.

7. Sulfur: Necessary for root growth, leaf expansion, and maintaining fruit standards.

8. Iron: Plays a key role in chlorophyll synthesis, affecting leaf growth, reproductive structures, and output.

9. Manganese: Vital for photosynthetic processes, flowering, fruiting, and maximizing yields.

10. Zinc: Essential for enzyme function, leaf expansion, reproductive organ formation, and harvest amounts.

11. Copper: Important for protein synthesis, energy production, and disease resistance in plants.

12. Boron: Regulates cell wall stability, pollination, seed formation, and crop quantity.

13. Molybdenum: Necessary for nitrogen assimilation, hormone production, and overall plant metabolism.

14. Chlorine: Contributes to osmoregulation, disease defense, and efficient photosynthesis.

15. Silicon: Strengthens cell walls, improves pest/disease resistance, and boosts grain/fruit quality.

[Note: The original list contains repetitive entries from item 16 onwards. For accuracy, only unique elements are presented here. If full repetition is intended, please confirm.]