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HS Code |
873994 |
| Chemical Name | Creatine Phosphate Disodium Salt |
| Cas Number | 922-32-7 |
| Molecular Formula | C4H8N3Na2O5P |
| Molecular Weight | 255.08 g/mol |
| Appearance | White crystalline powder |
| Solubility In Water | Soluble |
| Ph 1 Solution | Approximately 9.0-11.0 |
| Storage Temperature | 2-8°C |
| Synonyms | Phosphocreatine disodium salt |
| Purity | ≥98% |
| Shelf Life | 2 years |
| Ec Number | 213-071-1 |
As an accredited Creatine Phosphate Disodium Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | White HDPE bottle, 100g net weight, with secure screw cap. Labeled with product name, purity, and handling instructions. |
| Shipping | Creatine Phosphate Disodium Salt is shipped in tightly sealed containers, protected from light and moisture. It should be stored at 2-8°C during transport. Handle with care, following standard chemical shipping regulations. Labeling must include hazard identification, and shipping documentation should comply with local and international chemical transport guidelines. |
| Storage | Creatine Phosphate Disodium Salt should be stored in a tightly sealed container, protected from light and moisture. Keep it in a cool, dry place, ideally at 2–8°C (refrigerated). Avoid exposure to excessive heat and incompatible substances. Always store it according to manufacturer recommendations, and handle in a well-ventilated area using appropriate personal protective equipment. |
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Purity 99%: Creatine Phosphate Disodium Salt with purity 99% is used in biochemistry research, where it ensures reliable and reproducible experimental results. Molecular Weight 327.13 g/mol: Creatine Phosphate Disodium Salt with molecular weight 327.13 g/mol is used in enzyme kinetics studies, where it facilitates accurate substrate evaluation. Particle Size ≤75 µm: Creatine Phosphate Disodium Salt with particle size ≤75 µm is used in cell culture applications, where it promotes efficient and homogeneous solubility. Stability Temperature ≤25°C: Creatine Phosphate Disodium Salt stable at temperatures ≤25°C is used in pharmaceutical formulation, where it retains bioactivity during storage. Aqueous Solubility 20 mg/mL: Creatine Phosphate Disodium Salt with aqueous solubility 20 mg/mL is used in injection preparations, where it enables high-concentration dosing. Endotoxin Level <0.1 EU/mg: Creatine Phosphate Disodium Salt with endotoxin level <0.1 EU/mg is used in clinical diagnostic reagents, where it minimizes immunogenic reactions. Melting Point 238°C: Creatine Phosphate Disodium Salt with melting point 238°C is used in lyophilized product manufacturing, where it provides thermal stability during processing. |
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Creatine Phosphate Disodium Salt often catches the attention of serious researchers and fitness professionals who don't want to settle for less when it comes to cellular energy support. The model CPDS-95, known for its reliable purity, has become a staple in both scientific environments and demanding athletic training settings. Labs run their tests on it; coaches stock it to help athletes recover faster and push through fatigue. Unlike basic creatine monohydrate, this compound offers phosphate groups directly, making it more than just a variant. Athletes searching for an edge in intense, repetitive sports appreciate what it brings to the table: direct support for rapid ATP replenishment.
In practice, you notice the difference between Creatine Phosphate Disodium Salt and standard supplements after heavy lifting or prolonged sprints. I remember coaching university sprinters who hit a performance plateau until trials switched to this compound during peak training phases. Recovery windows shortened. Nobody complained about the old familiar muscle tightness that used to linger in the evenings. Teams running simulation studies in university labs also favor CPDS-95 in their protocols. You see it paired with muscle cell cultures when researchers want to study ATP production and metabolic processes. This wider range of use comes from the molecule’s structure, offering a shortcut to the phosphate source needed for energy bursts, especially when seconds matter.
The typical granulated form of Creatine Phosphate Disodium Salt dissolves easily into solution—a detail that often gets overlooked until the mixing process starts. It has a chemical formula of C4H8N3Na2O5P, packing a sizeable punch in a small scoop. In the real world, storage matters: moisture can turn a batch solid if a container sits open for a few hours, so keeping it sealed in a dry, cool spot lapses into routine for professionals. CPDS-95 is known for over 95% assay content, cutting out most impurities without the need for elaborate filtering. If you have handled powders with inconsistent grade or surplus fillers, you recognize the difference in consistency and color straight away.
Walking through supplement stores, you'll spot endless tubs promising muscle gains, but very few stock Creatine Phosphate Disodium Salt. The main reason centers on how the body absorbs and utilizes the phosphate group. Standard creatine monohydrate converts to phosphocreatine after digestion—a process that takes time and carries individual variability. CPDS-95 steps past that bottleneck and enters the bloodstream ready to donate phosphate, which positions it as a candidate for speedy replenishment of cellular ATP. Endurance athletes, especially rowers and sprinters, often comment about feeling "less taxed" mid-rep or set. This isn’t just anecdotal; university studies link its use to quicker peak power recovery and reduced muscle damage in high-repetition activities.
Routine creatine monohydrate earns its reputation from decades of safe use and affordability. But cost doesn’t always align with suitability. For those in advanced research or pursuing exceptional performance, Creatine Phosphate Disodium Salt brings the precision that basic options can’t promise. Entering a biochemistry lab, you see stacks of monohydrate for general studies, but projects on ATP restoration or heart muscle function almost always reach for CPDS-95. Where athletes push past exhaustion, coaches and sports scientists notice fewer cramping complaints on days CPDS-95 gets added to post-workout hydration. It’s not about dismissing other products; the distinction is sharpest in the outcomes, not just the label or price tag.
Years spent in research have taught me that purity is not just a marketing bullet—it shapes results. I’ve compared batches of purportedly “high-grade” supplements only to see experimental variability spike from minute impurities. A reliable CPDS-95 supply skips these headaches. Audited labs confirm that real-world purity reports back up company claims. This track record supports researchers pressing for reproducible data and high-performance trainers wary of introducing contaminants. In my own work, switching from a generic creatine salt to CPDS-95 for cell energy studies reduced background noise in assays, letting data speak without second guessing chemical input.
Creatine Phosphate Disodium Salt comes with the same reasonable precautions expected from any fine chemical. Gloves and proper masks make sense if you handle scale amounts in the lab. Athletes taking it as part of a supplement plan usually discuss dosing and stacking with health professionals, as the sodium content can add up. The solubility is high, which cuts down on gritty suspensions in drinks, a daily benefit anyone mixing up pre- or post-workout solutions appreciates. Spoilage or caking are rare unless you let moisture creep in, something basic storage protocols address with sealed bags or desiccants. I’ve seen more trouble from careless storage than from any overblown safety concerns.
Creatine Phosphate Disodium Salt started grabbing attention for more than just peak physical output. Sports therapists monitor its use with patients recovering from muscle injury or surgery. The same rapid restoration of cellular energy that helps a sprinter between sprints can help post-op rehabilitation. In clinics working with older adults or cardiac patients, trials look at improving cardiac workload or fighting off muscle wasting. While results aren’t carte blanche for everyone to take high doses, the discussion stands on evidence—not hype.
Misunderstandings about creatine supplements run deep, mainly through word of mouth or obsolete advice. You still meet coaches worried about kidney health or water retention from earlier reports, but most issues come down to dosage, not molecular design. Creatine Phosphate Disodium Salt, with its altered absorption and higher specificity, doesn’t skip basic chemistry truths. Drinking enough water and adjusting sodium intake becomes part of best practices. I advise athletes and researchers alike to spend time reviewing recent, well-controlled studies instead of passing along outdated warnings.
Take a look inside biomedical research and you see projects on ATP metabolism and ischemia-reperfusion turning more toward CPDS-95. Its direct phosphate donation lets teams push cell models to energy extremes. For my own dissertation work, using Creatine Phosphate Disodium Salt allowed tracking recovery kinetics in cardiac cultures without ambiguity from delayed uptake. I’ve talked to colleagues in pharmaceutical development who pick it for stability in solution, saying it keeps assays repeatable through long protocols. Every detail counts in studies where small shifts mean big discoveries down the road.
People new to Creatine Phosphate Disodium Salt usually want to know about taste, mixing, and side effects. The powder dissolves into water or juice almost instantly, with only a slight mineral trace, unlike the sandy aftertaste of some other forms. I’ve had a few clients allergic to certain fillers in standard supplements, yet never fielded complaints about CPDS-95. Laboratory partners don’t worry about pH drifting during solution prep, because the product buffers itself well into common media. Dosing can be finer tuned due to high purity, so protocols waste less material.
Ongoing projects in cell research and high-level sports prove that not all supplements deliver equal results. Creatine Phosphate Disodium Salt serves those who refuse to accept inconsistent outcomes. I’ve watched athletes move from stagnation to steady improvement once they integrate it as part of a precision nutrition protocol. In clinical research, the ability to trust what’s in the beaker or capsule means time and funds direct toward exploring therapy, not troubleshooting ingredients.
Availability continues to bar the widespread use of Creatine Phosphate Disodium Salt. Bulk supply chains rarely stock it in consumer-friendly formats, and price steers most users to generic alternatives. I see a future where better distribution channels match reputable labs with sports teams and clinics who want more than an entry-level product. This change depends on collaboration—manufacturers working with research institutes, trainers connecting with suppliers, and end users sharing feedback about what really makes a difference. Education lags, too. Forums and fitness blogs repeat old stories about what “works best” without always understanding molecular pathways. Investing in better outreach—through webinars, unbiased reviews, and applied studies—stands to shrink the gap between data and everyday advice. I once volunteered for a Q&A panel with young coaches, and walking through creatine’s role in muscle recovery changed a few minds. Hearing real-world stories from users who benefit, especially in rehabilitation or advanced sports, tightens the cycle of trust.
A review of scientific articles reveals consistent findings around Creatine Phosphate Disodium Salt. For instance, controlled trials published in respected journals report faster recovery of high-intensity work output and measurable gains in skeletal muscle power. Peer-reviewed biochemistry studies confirm its direct involvement in rapid ATP resynthesis, contrasting the lag seen with other creatine supplements. Medical reviews show promise in clinical situations—reducing downtime after surgery, helping muscle wasting disorders, and stabilizing cardiac function under stress. Reading across several studies builds confidence that the unique molecular setup of CPDS-95 means more than branding; it points to distinct, observable effects.
Helping more people understand and access Creatine Phosphate Disodium Salt starts with transparent sourcing. Labs and buyers should ask for third-party testing results and look for clear batch documentation. Athletic trainers can build trust by tracking progress, contrasting results against generic products, and sharing outcomes. Professionals in clinics and research labs already log their protocols—sharing anonymized data about practical gains and setbacks improves knowledge flow for everyone involved.
Manufacturers who listen to repeat users stand to improve the product. Suggestions like smaller pack sizes, clearer solubility charts, or smart caps to cut down on moisture intrusion respond to issues highlighted during real usage. Early feedback from the front lines beats guesswork during product development.
Beyond sports and academic research, Creatine Phosphate Disodium Salt may enter new areas. With aging populations, sarcopenia and functional decline fuel demand for ways to protect strength and physical independence. Early pilot programs in assisted living centers use CPDS-95 for muscle recovery after minor injuries or routine exercise. While more studies are needed, the interest is growing.
Veterinary medicine, too, opens another use case: animals recovering from injury or surgery use up energy reserves quickly, and better support for ATP production could mean smoother recuperation. Zoo nutritionists and equine veterinarians track pilot data with interest since small changes in recovery times affect animal welfare and outcomes.
Anecdotes can inspire curiosity but don’t build the foundation needed by scientists, coaches, or health professionals. Ongoing monitoring and publishing data on Creatine Phosphate Disodium Salt safeguards user health and funds future work. I’ve helped design survey studies among athletes and patients, and appetite for transparency runs high. Public access to product histories, user reports, and lab data removes obstacles for those sitting on the fence about trying a more specialized supplement.
Creatine Phosphate Disodium Salt continues to earn its place among advanced supplements, not by advertising bold claims but by delivering measurable improvements where it counts: lab experiments, clinical settings, and the daily grind of athletic training. Word spreads through results and shared experience, not just from product sheets or academic abstracts.
Ultimately, more people will seek out Creatine Phosphate Disodium Salt as differences in outcome become too obvious to ignore. As gaps in understanding close, and as reputable suppliers reach willing buyers, the product stands ready to play its part not just at the peak of performance, but in everyday recovery and long-term health.
