ABOUT OUR TECHNOLOGIES

At NANOBIOTICA Group, we are at the forefront of pharmaceutical innovations, utilizing cutting-edge technologies to enhance drug delivery and improve patient outcomes.

Our expertise lies in three primary areas:

A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.
A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.
MICRONIZATION

Micronization of active ingredients is a technique used to enhance drug delivery by reducing particle size to the micrometer range (1-10 microns). This process increases surface area and improves dissolution rates, leading to:

  • Better Absorption: enhanced uptake of medications in the body.

  • Faster Onset of Action: quicker therapeutic effects compared to traditional formulations.

  • Improved Bioavailability: drugs become more effective at lower doses.

  • Reduced Side Effects: lower doses can lead to fewer adverse reactions.

  • Enhanced Patient Compliance: easier medication regimens improve adherence.

A hand is holding an empty blister pack with multiple circular compartments. The packaging is made of transparent plastic and silver foil, and it appears to be missing several tablets.
A hand is holding an empty blister pack with multiple circular compartments. The packaging is made of transparent plastic and silver foil, and it appears to be missing several tablets.
NANOMICRONIZATION (NANOACTIVATION)

Nanomicronization, or nanoactivation, takes particle size reduction a step further by dealing with nanoparticles in the range of 1-100 nanometers. By subjecting particles to high-energy mechanical forces, we achieve:

  • Significant Surface Area Increase: smaller particles enhance solubility and absorption.

  • Improved Stability: active ingredients become more stable, extending shelf life.

  • Enhanced Bioavailability: even greater absorption rates than micronization.

  • Reduced Side Effects: minimizes risks associated with poor solubility.

  • Superior Treatment Outcomes: more effective medications at optimal doses.

This groundbreaking technique holds immense promise for advancing pharmaceutical formulations and elevating patient care standards.

A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.
A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.

LIPOSOMAL NANOTECHNOLOGY

Liposomal Nanotechnology involves encapsulating medications within lipid-based nanoparticles called liposomes. This advanced method offers:

  • Targeted Drug Delivery: liposomes can deliver drugs directly to specific tissues or cells.

  • Protection from Degradation: encapsulation shields drugs from premature breakdown in the body.

  • Enhanced Bioavailability: improved absorption rates lead to better efficacy.

  • Reduced Side Effects: minimizes systemic exposure, lowering the risk of adverse reactions.

Our experts are pioneering strategies to further improve the accuracy and effectiveness of liposomal drug delivery systems by utilizing:

  • Variable Electromagnetic Fields

  • Ultra-High Pressure Techniques

  • Controlled Temperature Environments

This innovative approach has the potential to revolutionize medication delivery and transform the future of healthcare.

A hand is holding an empty blister pack with multiple circular compartments. The packaging is made of transparent plastic and silver foil, and it appears to be missing several tablets.
A hand is holding an empty blister pack with multiple circular compartments. The packaging is made of transparent plastic and silver foil, and it appears to be missing several tablets.
PHYTOSOMAL NANOTECHNOLOGY

Phytosomal Nanotechnology involves forming complexes between natural plant compounds and phospholipids to create phytosomes. This cutting-edge technology enhances the bioavailability and therapeutic efficacy of botanical extracts. Benefits include:

  • Enhanced Bioavailability: Improved absorption and utilization of plant-based compounds in the body.

  • Increased Stability: Protects sensitive phytoconstituents from degradation.

  • Targeted Delivery: Facilitates the delivery of active compounds to specific sites in the body.

  • Natural Compatibility: Utilizes biocompatible and biodegradable materials.

  • Reduced Side Effects: Lower doses minimize potential adverse reactions.

This innovative approach has the potential to revolutionize medication delivery and transform the future of healthcare.

At NANOBIOTICA Group, our commitment to innovation and excellence drives us to continuously explore and implement advanced technologies. We aim to redefine drug delivery systems to provide superior healthcare solutions globally.

A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.
A variety of colorful pills and capsules rest on a metallic spoon against a black background, creating a stark contrast. The pills are of different shapes and sizes, including round tablets and elongated capsules in hues of pink, orange, white, and green.

COLD PLASMA TECHNOLOGY

Cold Plasma technology has the ability to efficiently kill bacteria and viruses without damaging sensitive materials, making it a promising tool for various medical applications. Its versatility and effectiveness make it a valuable asset in the field of healthcare and pharmaceuticals.

Application of Cold Plasma in the pharmaceutical industry includes sterilization of medical equipment and packaging materials, as well as decontamination of surfaces in cleanrooms. Cold Plasma technology has also shown potential in enhancing drug delivery systems by improving the solubility and bioavailability of certain drugs.


Additionally, Cold Plasma can be used for the modification of biomaterials to improve their compatibility with the human body, making them more suitable for medical implants. Furthermore, research is ongoing to explore the potential of Cold Plasma in developing novel pharmaceutical formulations with improved therapeutic efficacy.

Nanobiotica's innovative pharmaceutical solutions have transformed our operations. Their commitment to quality and customer satisfaction is truly commendable. Highly recommend their products!

John Doe

A collection of translucent capsules and pills scattered across a dark, textured surface. The lighting casts dramatic shadows and highlights, creating a contrast between the bright capsules and the dark background.
A collection of translucent capsules and pills scattered across a dark, textured surface. The lighting casts dramatic shadows and highlights, creating a contrast between the bright capsules and the dark background.

★★★★★

Excellence

Innovative pharmaceutical solutions for global markets.

Quality

Research

info@nanobiotica.com

+1234567890

© 2025. All rights reserved.