Antibiotics (non β-Lactams)

Our process accelerates solubility, improves dissolution rate, and enhances bioavailability.

At Munit, we are specialized in the micronization of antibiotics (non β-Lactams) to enhance their solubility, bioavailability, and stability. Our state-of-the-art facilities and cutting-edge technology allow us to provide customized solutions for various pharmaceutical applications.

We have extensive experience working with a wide range of antibiotics, including macrolides, tetracyclines, aminoglycosides, and fluoroquinolones.
Our expert team of scientists works closely with our customers to develop solutions that meet their needs.

Our micronization process involves a selection of milling techniques, operating conditions, and particle size analysis methods to achieve optimal results.

We are committed to providing outstanding customer service and support throughout the micronization process. In addition, we work collaboratively with our clients to develop customized solutions to meet their needs. We aim to provide our clients with the highest quality micronized antibiotics (non β-Lactams) delivered on time.

Our commitment to quality, safety, and innovation has made us a trusted partner in the pharmaceutical industry. Contact us to learn more about our services and how we can help you with your antibiotic micronization needs.

Start a project with us

We are world leading player in the field of particle size engineering for pharmaceutical substances.

Our Services

Additional Services in Micronization and Milling
Contact Us

Start a project with us

Find out how Munit can help you to increase the bioavailability of your pharmaceutical substances by reducing their particle size.

Cookie bar

We use cookies and other tracking technologies to improve your experience and analyse our website traffic.

Please consult our Privacy Policy for more information.

By clicking on “Accept”, you consent to your data being collected

You can change your cookie settings and disable cookies, except for essential functional ones, at any time.