Dr. Anis Daou is actively involved in research in the synthesis, drug delivery and anaysis, particularly focusing on the development and analysis of anticancer drugs. His work includes the synthesis of novel boron derivatives tailored for Boron Neutron Capture Therapy (BNCT), a targeted approach for delivering drugs to cancer cells. In addition to this targeted therapy, He also explores the use of natural, non-synthetic alternatives with high antioxidant and polyphenol properties, investigating their potential as effective anticancer agents.

A significant aspect of his research lies in Anticancer Theranostics, where he synthesizes compounds that possess dual capabilities: diagnosing specific cancers in patients and subsequently treating those cancers with the same compound. This innovative approach holds promise for personalized medicine and precise cancer treatment.
Another core area of his expertise is in formulating polymeric nanovehicles designed for the successful and selective release of pharmacophores to cancer cells. This involves utilizing FDA-approved polymers such as chitosan and poly(lactic-co-glycolic acid) (PLGA), as well as employing co-polymerization strategies to enhance targeting specificity. Notably, he explores the use of highly conductive and pH-sensitive polymers, pushing the boundaries of nanomedicine for improved cancer therapy outcomes.

Dr. Anis also contributes significantly to the development of transdermal ointments, creams, and gels with potent antibacterial and wound healing effects. His formulations incorporate a range of polymers and natural products, harnessing their synergistic properties for enhanced therapeutic efficacy.

In addition to their work in cancer therapeutics, Dr. Anis is actively involved in formulating insect bite sprays using oil-based formulations, addressing a common health concern in tropical regions. His expertise extends to sports pharmaceutics, where he focuses on formulating sports supplements and mixtures with higher efficacy, catering to the unique needs of athletes and fitness enthusiasts.

Furthermore, Dr. Anis is engaged in teaching-based research aimed at simplifying complex scientific concepts into easily understandable laboratory procedures. He has published a series of papers focusing on innovative educational approaches that enhance learning experiences for students.

Lastly, Dr. Anis conducts research on leveraging technology to improve student performance and overall learning outcomes, reflecting his commitment to advancing both scientific knowledge and educational practices in the field of pharmaceutical sciences.