Nano- and Micro-Scale Simulations of Ge/3C-SiC and Ge/4H-SiC NN-Heterojunction Diodes

Muhammad Haroon Rashid; Ants Koel; Toomas Rang

doi:10.4028/www.scientific.net/MSF.1004.490

Paper Titles

Statistical Analysis of Killer and Non-Killer Defects in SiC and the Impacts to Device Performance
p.458

Investigation of Bipolar Degradation of 1.2 kV BJTs under Different Current and Temperature Conditions
p.464

Impact of Threading Dislocations Detected by KOH Etching on 4H-SiC 650 V MOSFET Device Failure after Reliability Test
p.472

Evolution of SiO_x Shell Layers on SiC-SiO_x Core-Shell Nanowires
p.479

Nano- and Micro-Scale Simulations of Ge/3C-SiC and Ge/4H-SiC NN-Heterojunction Diodes
p.490

Defects Characterization of GaN Substrate with Hot Implant Process
p.497

Structural Characterization of a Ga₂O₃Epitaxial Layer Grown on a Sapphire Substrate Using Cross-Sectional and Plan-View TEM/STEM Analysis
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AFM Observation of Etch-Pit Shapes on β-Ga₂O₃ (001) Surface Formed by Molten Alkali Etching
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Dislocation Vector Analysis Method of Deep Dislocation Having C-Axis Segment in Diamond
p.519

HomeMaterials Science ForumMaterials Science Forum Vol. 1004Nano- and Micro-Scale Simulations of Ge/3C-SiC and...

Nano- and Micro-Scale Simulations of Ge/3C-SiC and Ge/4H-SiC NN-Heterojunction Diodes

Abstract:

During the last decade, silicon carbide (SiC) and its heterostructures with other semiconductors have gained a significant importance for wide range of electronics applications. These structures are highly suitable for high frequency and high power applications in extremely high temperature environments. SiC exists in more than 200 different polycrystalline forms, called polytypes. Among these 200 types, the most prominent polytypes with exceptional physical and electrical attributes are 3C-SiC, 4H-SiC and 6H-SiC. Heterostructures of these SiC polytypes with other conventional semiconductors (like Si, Ge) can give rise to interesting electronic characteristics. In this article, Germanium (Ge) has been used to make heterostructures with 3C-SiC and 4H-SiC using a novel technique called diffusion welding. Microscale and nanoscale simulations of nn-heterojunction of Ge/3C-SiC and Ge/4H-SiC have been done. Microscale devices have been simulated with a commercially available semiconductor device simulator tool called Silvaco TCAD. Whereas nanoscale devices have been simulated with QuantumWise Atomistix Toolkit (ATK) software package. Current-voltage (IV) curves of all simulated devices have been calculated and compared. In nanoscale device, the effects of defects on IV-characteristics due to non-ideal bonding (lattice misplacement) at heterojunction interface have been analyzed. Our simulation results reveal that the proposed heterostructure devices with diffusion welding of wafers are theoretically possible. These simulations are the preparations of our near future physical experiments targeted to fabricate SiC based heterostructure devices using diffusion bonding technique.

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Periodical:

Materials Science Forum (Volume 1004)

Pages:

490-496

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1004.490

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Online since:

July 2020

Authors:

Muhammad Haroon Rashid*, Ants Koel, Toomas Rang

Keywords:

3C-SiC, 4H-SiC, Diffusion Bonding, Germanium, Heterostructures, Silicon Carbide

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References

[1] Z. I. Alferov, Nobel Lecture: The Double Heterostructure Concept and its Applications in Physics, Electronics, and Technology, Rev. Mod. Phys. 73, 767 (2001).