IEEE Transactions on Nanotechnology
SPECIAL SECTIONS
Guidelines for organizations of Special Issue/Section (SIS) are available here.
Special Section on “Neuromorphic Computing” – New Deadline: July 10, 2022
UPDATED!!! The IEEE Transactions on Nanotechnology (TNANO) seeks original manuscripts for a Special Section on: “Neuromorphic Computing”
The explosive growth in data-centric computing-related applications necessitates a radical departure from traditional von Neumann computing systems. These systems involve separate processing and memory units that lead to significant …
Special Section on the 21st IEEE International Conference on Nanotechnology (IEEE NANO 2021) – New Deadline: June 31, 2022
UPDATED!!! The nanotechnology revolution is founded upon the understanding of phenomena occurring at the nanoscale and the ability to fabricate and manipulate nanomaterials and nanodevices for practical applications. Researchers are contributing new ideas from a wide range of disciplines, including materials science, biology, biomedicine, engineering, …
Special Section on “BEOL Compatible Materials and Devices”
Back End of Line (BEOL) process is the second portion of IC fabrication where devices or components get interconnected with wiring on the wafer. Particularly in advanced technology nodes, the requirements of high integration density, performance, and new functionalities make it imperative to optimize BEOL …
Special Section on “Nanoscale Architectures (NANOARCH 2021)”
Following the successful IEEE/ACM International Symposium on Nanoscale Architecture (NANOARCH 2021), we have decided to put together a dedicated special section of TNANO, whose goal is to continue NANOARCH’s mission to promote cross-disciplinary research work and to seek inspiration to address the challenges of integrated …
Special Section on “Nanoscale Computing, Communication, and Applications (NanoCoCoA 2021)” – New (Firm) Deadline: April 14, 2021
UPDATED!!! Nanotechnology continues to revolutionize a wide variety of fields by paving the way toward sub-μm scale devices (i.e., in the order of a few tens/hundred nanometers). Controlling materials on such a scale is expected to give rise to integrated nanodevices with simple sensing, actuation, …
Special Section on “Beyond Nano: Smart Nanomaterials, Nanotechnologies and Metamaterials for Plasmonics and Advanced Energy Systems” – New Deadline: October 15, 2021
UPDATED The IEEE Transactions on Nanotechnology (TNANO) seeks original manuscripts for a Special Section on: “Beyond Nano: Smart Nanomaterials, Nanotechnologies and Metamaterials for Plasmonics and Advanced Energy Systems”
The metamaterial paradigm, was articulated in 1959 by R. Feynman, stating “Up to now, we have been content …
New Impact Factor (IF) for IEEE Transactions on Nanotechnology (TNANO) announced.
We are delighted to announce that IEEE Transactions on Nanotechnology (TNANO) has achieved an impressive result in the 2021 Journal Citation Reports with an Impact Factor of 2.570. More specifically, the 2020 Impact Factor of IEEE TNANO has increased to 2.57 from 2.196 in 2019, which …
NEW page limits starting with July 1st 2021!
The following page limits and mandatory charge have been approved by the NTC ExCom and will become operational for manuscripts submitted starting with July 1st 2021:
TNANO publishes Regular Papers and Research Letters. Regular Papers are 4 to 6 printed pages in length and Research Letters …
T-NANO Best Paper of the Year 2020 Award
At the beginning of each year, T-NANO selects a paper that appeared in the Transactions during the previous calendar year for its Best Paper Award. Candidate papers are nominated by members of the Editorial Board. Evaluation is done by members of the Senior Editors Panel, …
Special Section on “20th IEEE International Conference on Nanotechnology (IEEE NANO 2020)” – New Deadline: March 31, 2021
UPDATED The IEEE Transactions on Nanotechnology (TNANO) seeks original manuscripts for a Special Section on: “20th IEEE International Conference on Nanotechnology (IEEE NANO 2020)”
The nanotechnology revolution is founded upon the understanding of phenomena occurring at the nanoscale and the ability to fabricate and manipulate nanomaterials …