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1. Introduction

   For many metals and alloys, when cooled to a sufficiently low temperature, their resistivity suddenly drops to zero. This phenomenon known as...

   Chao Yao in Fabrication and Properties of High-Performance 122-Type Iron-Based Superconducting Wires and Tapes

   Chapter 2022
   

2. Development of Multifilamentary 122-Type IBS Tapes

   For practical applications, a conductor is more than just the superconductor [1]. Except for large current carrying capacity, they should be...

   Chao Yao in Fabrication and Properties of High-Performance 122-Type Iron-Based Superconducting Wires and Tapes

   Chapter 2022
   

3. Summary and Perspective

   In summary, the very high upper critical field (Hc2) in addition to its low anisotropy makes IBS quite attractive for the construction of high-field...

   Chao Yao in Fabrication and Properties of High-Performance 122-Type Iron-Based Superconducting Wires and Tapes

   Chapter 2022
   

4. Silicon Carbide Whiskers Coated Carbonized Loofah Sponge Composites

   In theory, attenuating electromagnetic waves mainly rely on a strong three-dimensional (3D) network constructed by conducting materials [1]. In...

   Songtao Li in Hierarchically Porous Bio-Carbon Based Composites for High Electromagnetic Shielding Performance

   Chapter 2022
   

5. Potential Applications of Carbonized Loofah Fiber/Sponge

   The first few chapters have introduced the structure and functionality of natural loofah, especially its application in the field of electromagnetic...

   Songtao Li in Hierarchically Porous Bio-Carbon Based Composites for High Electromagnetic Shielding Performance

   Chapter 2022
   

6. Fabrication and Characterization Methods

   The iron-based superconducting wires and tapes in this thesis are prepared with a powder-in-tube (PIT) process.

   Chao Yao in Fabrication and Properties of High-Performance 122-Type Iron-Based Superconducting Wires and Tapes

   Chapter 2022
   

7. Synthesis and Biological Use of Nanomaterials

   Nanomaterials are the most evolving and develo** area of the nanotechnology. They are considered as unique materials regarding their size-dependent...

   Manolya Kukut Hatipoglu, Pinar Akkus Sut in Progress in Nanoscale and Low-Dimensional Materials and Devices

   Chapter 2022
   

8. Recent Progress in Magnetic Nanostructures Studied by Synchrotron Radiation

   The recently developed synchrotron radiationSynchrotron radiation source provides high performance X-ray beam and opens new technique to study for...

   Takafumi Miyanaga, Ryo Masuda in Progress in Nanoscale and Low-Dimensional Materials and Devices

   Chapter 2022
   

9. Probing Plasmons by EELS in Chiral Array of Hyperbolic Metasurfaces. The Role of Plasmon Canalization

   We have derived the energy loss spectrum for a beam of energetic electrons moving parallel to a set of two-dimensional (...

   Oleksiy Roslyak, Vassilios Fessatidis, ... Aparajita Upali in Progress in Nanoscale and Low-Dimensional Materials and Devices

   Chapter 2022
   

10. Two Dimensional Magnetopolaritons and the Associated Landau Quantized Magnetoconductivity Tensor

    We address the magnetopolariton spectrum and magnetoconductivity tensorMagnetoconductivity tensor of a two dimensionalTwo dimensional plasma of...

    Mark Orman, Norman J. M. Horing in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

11. Nonlinear Optical Properties of Low Dimensional Quantum Systems

    Low dimensional semiconductor structures such as quantum wellsQuantum well, wiresWire and dotsDot demonstrate interesting nonlinear optical...

    V. Ustoglu Ünal, M. Tomak, ... O. Zorlu in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

12. T-3 “DICED” LATTICE Quantum Dynamics and Statistical Thermodynamics (a) Zero Magnetic Field and (b) Landau Quantized

    This chapter addresses the pseudospin-1Pseudospin 1 T-3 “Diced” LatticeT-3 Diced Lattice in regards to its quantum dynamicsQuantum Dynamics, spectrum...

    Norman J. M. Horing in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

13. Landau Quantized Dynamics and Energy Spectra of Asymmetric Double-Quantum-Dot Systems: (a) Nonrelativistic Electrons; (b) Dirac T-3 “Diced” Lattice  Carriers

    This chapter is concerned with charge carrier propagation and the associated energy spectrumEnergy spectrum in asymmetric quantum double-dot systems...

    N. J. M. Horing, J. D. Mancini, S. L. Horton in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

14. Spin Dependent Thermoelectric Currents of Tunnel Junctions, and Other Nanostructures: Onsager Response-Theory

    Spin Currents in Tunnel Junctions, forSpin currents in tunnel junctions example, those induced by thermoelectric forces due to temperature and...

    K. H. Bennemann in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

15. Tight Binding and Density Functional Theory of Tailoring Electronic Properties in Al1−xInxN/AlN/GaN High Electron Mobility Transistors (HEMTs)

    Group III-nitrides have acquired an important role in science and technology of compound semiconductors for fabricating the novel electronic and...

    Meziani Abdelhakim, Abdul-Rahman Allouche, ... Hilmi Unlu in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

16. Introduction

    The continuous miniaturization of silicon-based complementary metal-oxide-semiconductor (CMOS) devices faces fundamental physical limits and...

    Marc Vila Tusell in Spin Dynamics in Two-Dimensional Quantum Materials

    Chapter 2022
    

17. Numerical Analysis of the Helmholtz Green’s Function for Scalar Wave Propagation Through a Nano-hole on a Plasmonic Layer

    A detailed numerical study of the Helmholtz Green’s function for the description of scalar wave propagationScalar wave propagation through a...

    Désiré Miessein, Norman J. M. Horing, ... Harry Lenzing in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

18. Two-Dimensional Nanomaterials Based Biosensors

    GrapheneGraphene became the first 2D (two-dimensional) nanostructure which was discovered in 2004. After the synthesis of graphene revealed its...

    Bahadır Salmankurt, Hikmet Hakan Gürel in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

19. Modelling of Semiconductors for Low Dimensional Heterostructure Devices

    Advancement in the science and technology of low dimensional electronic and optical devices requires qualitatively reliable and quantitatively...

    Hikmet Hakan Gürel, Özden Akıncı, Hilmi Ünlü in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022
    

20. One-Dimensional Silicon Nano-/microstructures Based Opto-Electronic Devices

    One-dimensional (1D) nanostructuresOne-dimensional (1D) nanostructures, including nanorodsNanorod, nanowiskers, nanowiresNanowire, nanotubes and...

    H. Karaağaç, E. Peksu, ... M. Saif Islam in Progress in Nanoscale and Low-Dimensional Materials and Devices

    Chapter 2022