Ctance, (c) get in touch with resistance, and (d) width-normalized make contact with downscaling on (b) ON-state conductance, (c) speak to resistance, and (d) width-normalized contact resistance. In all situations, L = 15.2 nm. resistance. In all instances, L = 15.2 nm.Supplies 2021, 14, x. 10.3390/xxxxx Materials 2021, 14, 6965. 10.3390/mawww.mdpi/journal/materials mdpi/journal/materialsMaterials 2021, 14, 6965 PEER Review Components 2021, 14, x FOR2 of 2 ofFigure six. (a) Length-dependent transmission in GNRs with ICs and MCs. Impact of length scaling Figure 6. (a) Length-dependent transmission in GNRs with ICs and MCs. Influence of length scaling on (b) ON-state conductance, (c) get in touch with resistance, and (d) width-normalized make contact with resistance. In on (b) ON-state conductance, (c) get in touch with resistance, and (d) width-normalized speak to resistance. In all circumstances, W = 2.6 nm. all circumstances, W = 2.6 nm.Reference1.At many points the text exactly where the the numerical values and C W RC talked about, At numerous points inin the text where numerical values of RCof RCRand areW are described, corrections be completed in accordance with the for the corrected R and RCW data procorrections must need to be completed accordingcorrected RC andRCC W data provided in Figures 3 and six. Nevertheless, the generalgeneral conclusionsoriginaloriginal paper revided in Figures 3 and 6. Nonetheless, the conclusions on the of the paper concerning metallization effects, decrease limits oflimits of acceptable GNR lengths, qualitative RRC W garding metallization effects, lower acceptable GNR lengths, qualitative RC and C and behavior, plus the primary discovering that RCthat RC inwith 1Dwith 1D edge contacts might be adRCW behavior, plus the most important finding in GNRs GNRs edge contacts may be adjusted by size engineering to levels lower thanlower than these of graphene devices, still hold. nonetheless justed by size engineering to levels these of large-area large-area graphene devices, The authors would like to apologize for any inconvenience caused for the readers by hold. these The authors would like towill be updated, as well as the original will remainthe readers by adjustments. The manuscript apologize for any inconvenience triggered to on the web around the articlechanges. The manuscript will likely be updated, and also the original will remain online on the these webpage. post webpage.Poljak, M.; Mati, M. Metallization-Induced Quantum Limits of Make contact with Resistance in Graphene NanoribbonsprojectOnec Funding: This perform was supported by the Croatian Science Foundation beneath the with CODimensional Contacts. Supplies 2021, 14, 3670. [CrossRef] [PubMed] NAN2D (Grant No. UIP-2019-04-3493).Institutional Review Board Statement: Not applicable. Informed Consent Statement: Not applicable. Data Availability Statement: The data presented within this study are contained Verdiperstat Biological Activity inside the write-up and are out there on request in the corresponding author. Conflicts of Interest: The authors declare no conflict of interest.Reference1. Poljak, M.; Mati, M. Metallization-Induced Quantum Limits of Make contact with Resistance in Graphene Nanoribbons with Ikarugamycin Biological Activity One-Dimensional Contacts. Components 2021, 14, 3670. 10.3390/mamaterialsArticleExperimental Study on the Compaction Qualities and Evaluation Strategy of Coarse-Grained Materials for SubgradeShanzhen Li 1 , Yangsheng Ye two , Liang Tang 1, , Degou Cai 2 , Shuang Tian 1 and Xianzhang LingSchool of Civil Engineering, Harbin Institute of Technology, Harbin 150090, China; lsz_hit@163 (S.L.); ts_hit@163 (S.T.) Railway Engineering Analysis Institute, China Academy.
