Scholars@Duke publication: TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery

American Chemical Society (ACS)

TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery

Publication , Preprint

Zhang, Z; Xiang, Y; Laforet Jr., J; Spasojevic, I; Fan, P; Heffernan, A; Eyler, CE; Wood, KC; Hartman, ZC; Reker, D

March 18, 2025

Published version (DOI) Publisher Link

Duke Scholars

Author Daniel Reker Biomedical Engineering

DOI

10.26434/chemrxiv-2025-r8mvz

Publication Date

March 18, 2025

Citation

APA

Chicago

ICMJE

MLA

NLM

Zhang, Z., Xiang, Y., Laforet Jr., J., Spasojevic, I., Fan, P., Heffernan, A., … Reker, D. (2025). TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery. American Chemical Society (ACS). https://doi.org/10.26434/chemrxiv-2025-r8mvz

Zhang, Zilu, Yan Xiang, Joe Laforet Jr., Ivan Spasojevic, Ping Fan, Ava Heffernan, Christine E. Eyler, Kris C. Wood, Zachary C. Hartman, and Daniel Reker. “TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery.” American Chemical Society (ACS), March 18, 2025. https://doi.org/10.26434/chemrxiv-2025-r8mvz.

Zhang Z, Xiang Y, Laforet Jr. J, Spasojevic I, Fan P, Heffernan A, et al. TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery. American Chemical Society (ACS). 2025.

Zhang, Zilu, et al. “TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery.” American Chemical Society (ACS), 18 Mar. 2025. Crossref, doi:10.26434/chemrxiv-2025-r8mvz.

Zhang Z, Xiang Y, Laforet Jr. J, Spasojevic I, Fan P, Heffernan A, Eyler CE, Wood KC, Hartman ZC, Reker D. TuNa-AI: a hybrid kernel machine to design tunable nanoparticles for drug delivery. American Chemical Society (ACS). 2025.

DOI

10.26434/chemrxiv-2025-r8mvz

Publication Date

March 18, 2025