Carbon Nano Particles
SiNON Nano Sciences leverages the advanced features of Carbon Nano Particles to pioneer innovative solutions in the field of therapeutics. By integrating the unique properties of Raman Spectra, FTIR imaging, DLS size distribution, solubility, and fluorescence capability, we ensure the development of cutting-edge therapeutic and diagnostic applications that are both effective and reliable. Our commitment to harnessing the potential of CNPs underscores our dedication to advancing healthcare and improving patient outcomes
Multiple Applications
A platform technology with diverse applications
CNP Therapeutics
Targeted Drug Delivery Controlled-release Cross the Blood Brain Barrier
Fluorescent Bio-Imaging & Sensing
Non-invasively Self-fluorescing Diagnostic
tools In Vitro Bio Sensing
Oncology Applications
Oncology-Combination Therapy Diabetes (oral insulin) Regenerative Medicines Cardiology.
pH-Based Configuration of Carbon Nanoparticles for Targeted Delivery
pH-based configuration of Carbon Nanoparticles (CNPs) is a cutting-edge approach in targeted drug delivery that utilizes the acidic environment of specific tissues, such as tumors, to ensure precise and controlled release of therapeutic agents.
Targeted Release: CNPs are engineered to release drugs in response to the acidic pH of diseased tissues, ensuring localized and controlled delivery.Enhanced Efficacy: This approach increases the therapeutic impact by concentrating the drug in the affected area, reducing systemic exposure.
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The image shows an infrared (IR) spectrum obtained via Attenuated Total Reflectance (ATR) spectroscopy, displaying two distinct plots in red and blue, representing different samples or conditions of CNP (possibly...
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The image represents an ATR-IR (Attenuated Total Reflectance Infrared Spectroscopy) spectrum of Carbon Nanoparticles (CNP).
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The image shows an infrared (IR) spectrum obtained via Attenuated Total Reflectance (ATR) spectroscopy, displaying two distinct plots in red and blue, representing different samples or conditions of CNP (possibly...
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The image shows an infrared (IR) spectrum obtained via Attenuated Total Reflectance (ATR) spectroscopy, displaying two distinct plots in red and blue, representing different samples or conditions of CNP (possibly...
| Solvent | Solubility | ||
|---|---|---|---|
|
H2O |
Soluble |
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|
EtoH |
Soluble |
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|
ACN |
Partially Soluble |
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|
DMF |
Soluble |
||
|
DCM |
Insoluble |
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|
Toluene |
Insoluble |
||
|
DMSO |
Soluble |
||
|
IPA |
Partially Soluble |
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Solubility of Carbon Nanoparticles (CNPs) in Various Solvents
In a study, 0.01 grams of Carbon Nanoparticles (CNPs) were dispersed in 10 mL of various solvents and sonicated for 10 minutes.
Soluble in:H₂O: Complete solubility, ideal for biological applications like drug delivery and bioimaging.Ethanol (EtOH): Soluble, indicating potential for alcohol-based systems.Dimethylformamide(DMF): High polarity makes DMF suitable for organic synthesis and polymer chemistry.Dimethylsulfoxide(DMSO): Soluble in both polar and nonpolar environments.
Partially Soluble in:Acetonitrile (ACN): Partial solubility, may not suit applications needing full dispersion.Isopropanol (IPA): Some solubility, useful in specific formulations.
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The Zeta potential of -33 mV for carbon nanoparticles functionalized with Arginine highlights their stability and surface charge in suspension. The negative charge ensures electrostatic repulsion between particles, preventing aggregation...
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Zeta potential is a key measure of nanoparticle stability and surface charge in suspension, expressed in millivolts (mV). A value of -41.09 mV indicates a highly negative charge, promoting strong...
| Element | App Conc. | Intensity Corrn. | Weight% | Weight % Sigma | Atomic% |
|---|---|---|---|---|---|
|
C |
0.23 |
0.9014 |
21.38% |
2.12% |
26.59% |
|
O |
1.08 |
1.1381 |
78.62% |
2.12% |
73.41% |
|
Totals |
|
|
100.00 |
|
|
