Fabrication and Characterization of Flexible Solid-State MIM Supercapacitor with Inkjet-Printing of Stacked Ag NP and Polymer Dielectric Layers

Authors

Daniel R. Nascimento, University of Memphis
Niranjan Govind, Pacific Northwest National LaboratoryFollow

Abstract

The authors would like to include 3 additional references in the last paragraph of column 1 on page 14686. The original sentence reads as follows: ‘‘This simplified approach is equivalent to the pseudo-wavefunction formulation of LR-TDDFT (PWF-TDDFT) proposed originally in the context of derivative couplings between Hartree-Fock excited states176 and spin-flip TDDFT states,177 then generalized to LR-TDDFT states.178,179’’ This should be changed to the following text, where the new references are added as 188, 189 and 190: ‘‘This simplified approach is equivalent to the pseudo-wavefunction formulation of LR-TDDFT (PWF-TDDFT) proposed originally in the context of derivative couplings between Hartree-Fock excited states176 and spin-flip TDDFT states,177 then generalized to LR-TDDFT states.178,179,188–190’’ The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

Publication Title

Proceedings of the 16th IEEE Dallas Circuits and Systems Conference, DCAS 2023

Recommended Citation

Nascimento, D., & Govind, N. (2023). Fabrication and Characterization of Flexible Solid-State MIM Supercapacitor with Inkjet-Printing of Stacked Ag NP and Polymer Dielectric Layers. Proceedings of the 16th IEEE Dallas Circuits and Systems Conference, DCAS 2023 https://doi.org/10.1109/DCAS57389.2023.10130228