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  Subjects -> ELECTRONICS (Total: 207 journals)
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IEEE Nanotechnology Magazine
Journal Prestige (SJR): 0.419
Citation Impact (citeScore): 1
Number of Followers: 45  
 
  Hybrid Journal Hybrid journal (It can contain Open Access articles)
ISSN (Print) 1932-4510
Published by IEEE Homepage  [228 journals]
  • Introducing the Editorial Board [The Editor’s Desk]

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      Authors: Bing Sheu;Shao-Ku Kao;Xiaoning Jiang;Chao-Sung Lai;Hui-Ying Yang;Vita Pi-Ho Hu;Hsiao-Chun Huang;Huan Liu;Ilgu Yun;Toshiya Sakata;Marco Ottavi;Panagiotis Dimitrakis;Georgios Ch. Sirakoulis;Mohan Rajesh Elara;Lin Lin;Yang Xu;Vito Puliafito;Attila Bonyár;Yuh-Shyan Hwang;Ruey-Dar Chang;
      Pages: 2 - 8
      Abstract: Professor Xiaoning Jiang serves as Associate Editor-in-Chief in charge of the Spotlight Column. One article is featured in the Spotlight Column, entitled “The First Edition of the World Nanotechnology Marathon: Shifting Paradigms in Teaching and Learning Embraced by the Nanotechnology Council Young Professionals.” The authoring team is led by Prof. Rafal Sliz, who serves as Chair of the Young Professionals Committee of the IEEE Nanotechnology Council.
      PubDate: Oct. 2022
      Issue No: Vol. 16, No. 5 (2022)
       
  • The First Edition of the World Nanotechnology Marathon [Spotlight Column]

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      Authors: Matteo B. Lodi;Santhosh Sivasubramani;José Berkenbrock;Daniela Vieira;Tory Welsch;Yi Li;Rafal Sliz;
      Pages: 9 - 12
      Abstract: To shape the next generation of nanotechnologists and nanoscientists, especially during and post the Covid-19 pandemic, the teaching and learning paradigms for nanotechnology must change. To this aim, innovative solutions driven by digital tools and new inclusive initiatives have to be proposed. This work reports the experience of the first edition of the World Nanotechnology Marathon organized by the IEEE Nanotechnology Council Young Professionals. Throughout 24 hours, 24 nanotechnology experts inspired the new generation of nanotechnologists as well as experienced professionals in this area, paving the route to a sustainable and active network of nanotechnology young professionals around the world.
      PubDate: Oct. 2022
      Issue No: Vol. 16, No. 5 (2022)
       
  • Environmentally Friendly and Biodegradable Components for Biosensors

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      Authors: Briliant Adhi Prabowo;Agnes Purwidyantri;
      Pages: 13 - 19
      Abstract: The pandemic of coronavirus diseases 2019 (COVID-19) attracts dramatic attention worldwide that biosensing technology plays an essential role in screening, tracing, and diagnostics of the diseases in society. The World Health Organization (WHO) recommends the significant features of biosensor development, called ASSURED: affordable, sensitive, specific, user-friendly, rapid and robust, equipment-free, and delivered to the end-user. Consequently, the practical, low-cost, and environmentally friendly components of biosensors are urgently required in the future for such cases of massive tests in homecare and point of care. This article reviews the emerging trend and applications of recent biosensor research utilizing reusable and biodegradable components. The challenges of future development were discussed to overview the consideration of the subsequent research roadmap.
      PubDate: Oct. 2022
      Issue No: Vol. 16, No. 5 (2022)
       
  • The Prospects of Colloidal Lithography Towards Low-Cost and Scalable
           Sensors

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      Authors: Agnes Purwidyantri;Briliant Adhi Prabowo;
      Pages: 20 - 28
      Abstract: Nanosphere lithography (NSL), a colloidal-based nanopatterning technique, has demonstrated versatility for bottom-up and top-down nanofabrication approaches with a simple procedure that can be performed in a standard chemical laboratory. This technique offers versatility for large-area nanopatterning with a low-cost process. Nanopatterned arrays have shown outstanding features in enhancing sensor performance due to their ability to create effective nanoscale physical and chemical changes, high molecular entrapment with the roughened substrate, and means of downscaling toward scalable sensors manufacturing. All these prominent properties have made NSL a promising candidate for scalable biosensors production as its performance is also highly comparable with the pre-existing lithography techniques that mostly require high-cost infrastructure. This mini-review discusses in detail the advantages of colloidal lithography over other lithography techniques from the resolution and scalability of manufacturing. It is emphasized that the cost-competitive NSL technology may be applicable for a broad range of end-users, from high-profit margins, such as communication, technology, and health sectors, to the low-profit margins, such as in food industries. The combinational strategies in NSL are presented, including polystyrene nanotemplating of the substrate, feasible integration with metallic film deposition technologies, and potential application in various sensing platforms.
      PubDate: Oct. 2022
      Issue No: Vol. 16, No. 5 (2022)
       
  • Advances in Magnetic Domain Walls and Their Applications

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      Authors: Seema Dhull;Arshid Nisar;Namita Bindal;Brajesh Kumar Kaushik;
      Pages: 29 - 44
      Abstract: This article explores the recent developments in spin-based domain wall (DW) memories. The physics behind the DW motion, device materials, current challenges, and applications have been discussed in detail. DWs can propagate through a magnetic nanowire by the application of external magnetic fields or by spin-polarized electric currents. Great progress has been made in these devices since the introduction of electric current-induced DW motion. However, driving DWs necessitates large spin-current densities that are incompatible with low-power devices. Therefore, significant efforts have been made to achieve highly efficient and controlled DW motion by material engineering and different mechanisms such as spin-orbit-torque (SOT), Dzyaloshinskii-Moriya interaction (DMI), and voltage-controlled magnetic anisotropy. The controlled manipulation of DWs in magnetic materials has inspired numerous strategies for high-density memory and energy-efficient logic implementation. Moreover, these devices are the potential candidates for neuromorphic computing applications that can be combined with logic-in-memory. The displacement of the DW can achieve multiple resistance states that have opened up possibilities of building artificial neurons and synapses. Despite the rapid progress, DW devices face several challenges such as low read margin, low speed, and sub-20nm scalability. Future research directions have to focus on material engineering and fabrication techniques to address these issues. Simultaneously, efforts from the circuit and system perspectives are extensively required in exploring the possible uses of these devices.
      PubDate: Oct. 2022
      Issue No: Vol. 16, No. 5 (2022)
       
 
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