Tomasz Panczyk

TL;DR: The delivery of small molecule drugs is expounded, with special attention paid to the current progress of in vitro and in vivo research involving CNT-based DDSs, before finally concluding with some consideration on inevitable complications that hamper successful disease intervention with CNTs.

TL;DR: In this paper, a new description of the kinetics of localized gas adsorption/desorption on energetically heterogeneous solid surfaces was developed, which is based on the statistical rate theory of interfacial transport (SRTIT).

TL;DR: It is demonstrated that encapsulated cisplatin could be delivered in living cells under physiological conditions to exert its pharmacological action and achieved higher drug loading inside the nanotubes in comparison with data reported in literature.

TL;DR: A brief review of the development of the theoretical approaches to the kinetics of gas adsorption/desorption on/from the solid surfaces is presented in this article, where the attention is focused on new approaches, challenging the classical theories based on the ideas of Absolute Rate Theory (ART).

TL;DR: Results of a theoretical survey of potential applicability of doxorubicin coadsorption with various dyes molecules on/in carbon nanotubes as a drug delivery system show that neutral red can be particularly useful as a long-term blocker ofDoxorubsicin encapsulated in the inner cavity of (30,0) carbon Nanotube at neutral pH.