Buffer Components and Standard Laboratory Chemicals
Items 301 to 310 of 486 total
Display:
| Product Name | CAS # | Catalog # | QUANTITY | Price | Citations | RATING |
|---|---|---|---|---|---|---|
Tris phosphate monobasic | 6992-39-8 | sc-251409 | 50 g | $85.00 | ||
Tris phosphate monobasic is a versatile buffering agent known for its ability to maintain pH levels in biochemical assays. Its unique structure allows for effective protonation and deprotonation, facilitating precise control over reaction conditions. The compound exhibits strong ionic interactions, which can stabilize enzyme activities and influence reaction kinetics. Additionally, its solubility characteristics enhance its compatibility with various laboratory protocols, making it a staple in analytical chemistry. | ||||||
ADA sodium salt | 7415-22-7 | sc-284941 | 100 g | $70.00 | ||
ADA sodium salt serves as an effective buffering agent, renowned for its capacity to stabilize pH in diverse biochemical environments. Its unique ionic interactions enable it to modulate proton concentrations, thereby influencing enzymatic activity and reaction dynamics. The compound's high solubility and compatibility with various solvents enhance its utility in laboratory settings, allowing for reliable performance in a range of analytical applications. Its distinct molecular properties contribute to its role in maintaining optimal conditions for biochemical reactions. | ||||||
Sodium phosphate monobasic, anhydrous | 7558-80-7 | sc-215883 sc-215883A | 100 g 500 g | $15.00 $27.00 | 1 | |
Sodium phosphate monobasic, anhydrous is a versatile buffering agent that excels in maintaining pH stability across various experimental conditions. Its ability to engage in specific ionic interactions allows for precise control over protonation states, which is crucial for optimizing reaction kinetics. The compound's excellent solubility and low hygroscopicity make it an ideal choice for laboratory applications, ensuring consistent performance in diverse analytical methodologies. Its unique properties facilitate effective stabilization of biochemical systems. | ||||||
Sodium perchlorate, anhydrous | 7601-89-0 | sc-203398 sc-203398A sc-203398B | 100 g 500 g 2.5 kg | $65.00 $200.00 $615.00 | ||
Sodium perchlorate, anhydrous serves as a reliable buffer component in laboratory settings, known for its strong ionic character and high solubility in aqueous solutions. Its unique ability to participate in redox reactions enhances its role in various analytical techniques. The compound's stability under a range of conditions allows for predictable behavior in complex mixtures, making it an essential standard for calibrating instruments and ensuring reproducibility in experimental results. | ||||||
Sodium bisulfite, mixture of NaHSO3 and Na2S2O5 | 7631-90-5 | sc-203273 sc-203273A sc-203273B sc-203273C | 5 g 100 g 500 g 2.5 kg | $30.00 $45.00 $85.00 $210.00 | ||
Sodium bisulfite, a mixture of two distinct compounds, acts as an effective buffer in various laboratory applications. Its unique ability to engage in electron transfer reactions allows it to stabilize pH levels while also acting as a reducing agent. The compound's solubility in water facilitates rapid interaction with other substances, promoting efficient reaction kinetics. Additionally, its role in preserving the integrity of sensitive samples highlights its importance in analytical chemistry. | ||||||
Zinc chloride | 7646-85-7 | sc-203417 sc-203417A sc-203417B sc-203417C | 5 g 100 g 500 g 4 kg | $20.00 $32.00 $87.00 $253.00 | ||
Zinc chloride serves as a versatile buffer component in laboratory settings, exhibiting strong ionic interactions that enhance its stability in solution. Its hygroscopic nature allows it to absorb moisture, which can influence reaction dynamics and concentration levels. The compound's ability to form complexes with various ligands facilitates unique pathways in coordination chemistry, making it a valuable tool for studying metal ion behavior and reactivity in diverse chemical environments. | ||||||
Sodium bromide | 7647-15-6 | sc-203380 sc-203380A sc-203380C | 100 g 500 g 1 kg | $36.00 $59.00 $100.00 | ||
Sodium bromide is a key buffer component in laboratory applications, known for its ability to maintain pH stability through ionic dissociation in aqueous solutions. Its high solubility enhances ionic strength, promoting effective molecular interactions. The compound can participate in ion exchange processes, influencing reaction kinetics and equilibria. Additionally, its role in stabilizing proteins and enzymes makes it essential for biochemical assays, providing a controlled environment for various reactions. | ||||||
Sodium iodide | 7681-82-5 | sc-203388 sc-203388A sc-203388B | 100 g 500 g 2.5 kg | $66.00 $147.00 $540.00 | ||
Sodium iodide serves as an important buffer component in laboratory settings, characterized by its capacity to modulate ionic strength and facilitate charge balance in solutions. Its unique interactions with other ions can influence solubility and reactivity, enhancing the efficiency of various chemical processes. The compound's ability to participate in redox reactions and its role in stabilizing halogen species contribute to its utility in analytical chemistry, ensuring precise measurements and consistent results. | ||||||
Nitric acid solution | 7697-37-2 | sc-301479 | 1 L | $38.00 | ||
Nitric acid solution is a versatile laboratory chemical known for its strong acidic properties and ability to act as a buffer component. It engages in proton transfer reactions, effectively stabilizing pH levels in various solutions. Its oxidizing nature allows it to participate in diverse chemical pathways, influencing reaction kinetics and enhancing the solubility of metal ions. Additionally, its interactions with bases can lead to the formation of nitrates, further expanding its role in analytical and preparative chemistry. | ||||||
Ammonium phosphate monobasic | 7722-76-1 | sc-202948 sc-202948B | 100 g 500 g | $21.00 $45.00 | ||
Ammonium phosphate monobasic serves as an effective buffer component in laboratory settings, maintaining pH stability through its ability to donate protons in solution. Its unique interactions with other ions facilitate complex formation, enhancing solubility and reactivity. This compound also plays a crucial role in nutrient availability for various biochemical processes, influencing reaction kinetics and promoting specific pathways in analytical chemistry. Its hygroscopic nature further aids in moisture retention, impacting experimental conditions. | ||||||