Carbon Nanotubes in Controlled Drug Delivery
During past few decades, CNTs have been attracted a lot of attentiveness owing to their capability to deliver drug molecules to a particular site in a controlled manner (Luo et al., Biomaterials 32:6316–6323, 2011). Consequently, these are used to provide both controlled drug delivery as well as genetic substances like DNA, genes, and antibodies.
- S. Hampel, D. Kunze, D. Haase, K. Krämer, M. Rauschenbach, M. Ritschel, A. Leonhardt, J. Thomas, S. Oswald, V. Hoffmann Carbon nanotubes filled with a chemotherapeutic agent: a nanocarrier mediates inhibition of tumor cell growth (2008)Google Scholar
- A.K. Nayak, Controlled release drug delivery systems. Sci. J. UBU. 2, 1–8 (2011)Google Scholar
- A.K. Nayak, S.A. Ahmad, S. Beg, T.J. Ara, M.S. Hasnain, Drug delivery: Present, past and future of medicine, in, Applications of Nanocomposite Materials in Drug Delivery, (Elsevier, 2018), pp. 255–282Google Scholar
- A.K. Nayak, H. Bera, In situ polysaccharide-based gels for topical drug delivery applications, in Polysaccharide Carriers for Drug Delivery (Elsevier, 2019), pp. 615–638Google Scholar
- A.K. Nayak, B. Das, Introduction to polymeric gels, in Polymeric Gels (Elsevier, 2018), pp 3–27Google Scholar
- A.M. Yusof, N.A. Buang, L.S. Yean, M.L. Ibrahim, The use of multi‐walled carbon nanotubes as possible carrier in drug delivery system for aspirin, in AIP Conference Proceedings (AIP, 2009), pp. 390–394Google Scholar