Shaquib Rahman Ansari
PhD student at Institutionen för farmaci; Molekylär galenisk farmaci
- Telephone:
- +46 18 471 47 84
- E-mail:
- shaquib.rahman@farmaci.uu.se
- Visiting address:
- Biomedicinskt Centrum BMC, Husargatan 3
752 37 Uppsala - Postal address:
- Box 580
751 23 UPPSALA
- ORCID:
- 0000-0003-3710-405X
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Short presentation
I joined the drug delivery group at the department of pharmacy as a PhD student in 2020. I have an MSc in Pharmaceutical Sciences from the University of Copenhagen and a Bachelors in Pharmacy from Mumbai University. My current research goal is to develop therapeutic flame-made magnetic nanoparticles for the treatment of IBD and to facilitate non-invasive local delivery of these nano-enabled systems.
More information about the work can be found at Teleki Lab.
Keywords
- amorphous solid dispersion
- design of experiments
- flame aerosol synthesis
- magnetic nanoparticles
- microfluidics
Publications
Recent publications
- Magnetoresponsive fluorescent core-shell nanoclusters for biomedical applications (2023)
- Hyperthermia-Induced In Situ Drug Amorphization by Superparamagnetic Nanoparticles in Oral Dosage Forms (2022)
- Doxycycline-loaded magnetic microfibers for treatment of methicillin resistant staphylococcus aureus.
- Flame-made doped iron oxide nanoparticles as tracers for magnetic particle imaging
- Iron oxide nanoparticles for treatment and diagnosis of chronic inflammatory diseases: A systematic review
All publications
Articles
- Magnetoresponsive fluorescent core-shell nanoclusters for biomedical applications (2023)
- Hyperthermia-Induced In Situ Drug Amorphization by Superparamagnetic Nanoparticles in Oral Dosage Forms (2022)
- Doxycycline-loaded magnetic microfibers for treatment of methicillin resistant staphylococcus aureus.
- Flame-made doped iron oxide nanoparticles as tracers for magnetic particle imaging
- Iron oxide nanoparticles for treatment and diagnosis of chronic inflammatory diseases: A systematic review
- A pharmaceutical quality by design approach to develop high-performance nanoparticles for magnetic hyperthermia