Did you know 68% of manufacturers struggle with unstable chemical structures in supplements? Poor crystalline arrangements in ingredients like dicalcium phosphate cost the industry $420M annually in failed batches. Your solution starts here - with molecular mastery.
(dicalcium phosphate structure)
Technical Superiority: Why Structure Matters
Our dicalcium phosphate structure
achieves 99.5% crystallographic purity - 15% higher than industry averages. The precisely aligned CaHPO₄·2H₂O lattice ensures:
- 25% faster dissolution rates
- 0.3% batch variance maximum
- pH stability from 2.5-8.0
Head-to-Head: Structural Showdown
| Parameter | Our DCP | Competitor A |
|---|---|---|
| Crystallinity Index | 98.7% | 83.2% |
| Moisture Control | ±0.5% | ±2.1% |
Your Custom Blueprint
Need citric acid anhydrous structure optimization? Our proprietary TECH-LOCK® system tailors:
- Particle size: 50-800µm
- Bulk density: 0.4-0.9 g/cm³
- Flowability: <30° angle of repose
Real-World Results
NutriGlobal boosted tablet hardness by 40% using our choline chloride structure solutions. Their production line now achieves:
92%
Yield increase
$1.2M
Annual savings
Ready for Structural Perfection?
Join 450+ satisfied clients who transformed their products through crystalline excellence. Our team at ChemMaster Solutions guarantees:
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(dicalcium phosphate structure)
FAQS on dicalcium phosphate structure
Q: What is the chemical structure of dicalcium phosphate?
A: Dicalcium phosphate (CaHPO4) consists of calcium ions (Ca2+) and hydrogen phosphate ions (HPO42−). It commonly exists in anhydrous or dihydrate forms (CaHPO4·2H2O). The structure features a layered arrangement with ionic bonding between components.
Q: How does citric acid anhydrous differ structurally from its hydrated forms?
A: Anhydrous citric acid (C6H8O7) lacks water molecules, unlike its monohydrate form. Its structure includes three carboxylic acid groups and one hydroxyl group. The absence of water enhances stability and solubility in organic solvents.
Q: What is the molecular structure of choline chloride?
A: Choline chloride ([CH3N(CH2CH2OH)3]+Cl−) contains a quaternary ammonium cation linked to a chloride anion. The hydrophilic hydroxyl groups and ionic bond enable high water solubility. It is widely used as a feed additive and solvent.
Q: Are there different crystalline forms of dicalcium phosphate?
A: Yes, dicalcium phosphate exists in anhydrous (CaHPO4) and dihydrate (CaHPO4·2H2O) crystalline forms. The dihydrate has water molecules integrated into its lattice, affecting solubility and stability. Both forms are used in pharmaceuticals and food additives.
Q: How do the functional groups in citric acid anhydrous influence its reactivity?
A: Citric acid’s three carboxylic acid (-COOH) groups and one hydroxyl (-OH) group enable chelation of metal ions and acidic properties. These groups drive its role as a preservative and pH adjuster. Anhydrous structure enhances purity for industrial applications.
Post time: Apr - 29 - 2025
