Relaxation Delay of Ge‐Rich Epitaxial SiGe Films on Si(001)

Salomon, Andreas; Aberl, Johannes; Vukušić, Lada; Hauser, Manuel; Fromherz, T.; Brehm, Moritz

doi:10.1002/pssa.202200154

Cited by 4 publications

(5 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Increasing the Ge content in the Si x Ge 1 −x alloy would lead to a more dominant p‐type behavior, due to the Fermi‐level pinning close to the valence band, thus resulting in asymmetric on‐currents of the n‐ and p‐mode operation. [ 31 ] For device fabrication, a new type of ultra‐low temperature molecular beam epitaxy (MBE) of silicon‐germanium [ 32 ] enabled to grow a (100) surface oriented Si 0 . 67 Ge 0 .…”

Section: Resultsmentioning

confidence: 99%

“…Increasing the Ge content in the Si x Ge 1−x alloy would lead to a more dominant p-type behavior, due to the Fermi-level pinning close to the valence band, thus resulting in asymmetric on-currents of the n-and p-mode operation. [31] For device fabrication, a new type of ultra-low temperature molecular beam epitaxy (MBE) of silicon-germanium [32] enabled to grow a (100) surface oriented Si 0.67 Ge 0.33 layer with a thickness of d SiGe = 8 nm with high crystalline quality on top of the device layer of a silicon on insulator (SOI) substrate with a device layer of d Si = 20 nm. To cap the Si 0.67 Ge 0.33 layer, a Si layer with a thickness of d cap = 3 nm was grown atop.…”

Section: Resultsmentioning

confidence: 99%

“…Epitaxial Growth of Si 0.67 Ge 0.33 on SOI: For the growth of the Si 0.67 Ge 0.33 on SOI, recent growth strategies were adapted for the successful formation of Ge-rich but pseudomorphic 2D films with low surface roughness deposited on bulk Si substrates. [32,55] The layers were grown in a Riber SIVA-45 MBE system on SOI in (100) orientation. The BOX and device layer thickness for the SOI was 100 nm / 20 nm, respectively.…”

Section: Methodsmentioning

confidence: 99%

See 2 more Smart Citations

Reconfigurable Field‐Effect Transistor Technology via Heterogeneous Integration of SiGe with Crystalline Al Contacts

Fuchsberger

Wind

Sistani

et al. 2023

Adv Elect Materials

Self Cite

View full text Add to dashboard Cite

Reconfigurable field‐effect transistors, capable of being dynamically programmed during run‐time, overcome the static nature of conventional complementary metal‐oxide semiconductors by reducing the transistor count and the circuit path delay. Thereby, SiGe and Ge are predicted to boost drive currents, switching speed and to reduce power consumption. Nevertheless, Ge‐based reconfigurable field‐effect transistor prototypes have so far fallen short in reaching both the promised performance due to interface instability to their contacts and gate oxides, as well as in reaching the current–voltage symmetry necessary for circuit applicability. Here, a top‐down fabricated SiGe‐based reconfigurable transistor technology is reported that is comprised of a vertical Si‐Si0.67Ge0.33 heterostructure enabling the envisioned high and symmetric on‐currents of both n‐ and p‐type operation. Monolithic integration with single‐elementary crystalline Al contacts alleviates process variability compared to conventional Ni‐silicide/Ni‐germanide contacts and introduces an ultra‐thin Si interlayer providing stability and equal injection efficiency of holes and electrons. The implementation of a three top‐gate transistor in combination with a hysteresis‐free Si/SiO2/HfO2 gate stack enhances polarity control and leakage current suppression to limit static power dissipation. Importantly, the obtained Al‐Si‐SiGe multi‐heterojunction and advanced reconfigurable transistor design is the first Ge‐based technology showing the envisioned stability and performance enhancements.

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Reconfigurable Field‐Effect Transistor Technology via Heterogeneous Integration of SiGe with Crystalline Al Contacts

Fuchsberger

Wind

Sistani

et al. 2023

Adv Elect Materials

Self Cite

View full text Add to dashboard Cite

show abstract

“…too thin for the here proposed device applications. Thereto, ultra-low temperature MBE [13] was employed to grow a (100) surface oriented Ge layer with a thickness of d Ge = 4 nm onto the device layer of a commercially available SOI wafer with a device layer of d Si = 20 nm. Importantly, for the growth of strained and defect free Ge, growth temperatures slightly below 574 K are required.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, the growth of the here presented structures, while performed with MBE, can be considered as CMOS compatible. [13] Moreover, a high-resolution transmission microscopy (HRSTEM) image of the channel stack is shown in Figure 1b. To exclude the formation of instable Ge oxide throughout device fabrication, a Si capping layer with a thickness of d cap = 3 nm was gown and thermally oxidized to obtain a 5 nm to 9 nm thick SiO 2 interface dielectric layer.…”

Section: Introductionmentioning

confidence: 99%

A Run-Time Reconfigurable Ge Field-Effect Transistor With Symmetric On-States

Fuchsberger,

Wind,

Nazzari

et al. 2024

IEEE J. Electron Devices Soc.

View full text Add to dashboard Cite

Here, we present a Ge based reconfigurable transistor, capable of dynamic run-time switching between n-and p-type operation with enhanced performance compared to state-of-theart Si devices. Thereto, we have monolithically integrated an ultra-thin epitaxial and defect-free Ge layer on a Si on insulator platform. To evade the commonly observed process variability of Ni-germanides, Al-Si-Ge multi-heterojunction contacts have been employed, providing process stability and the required equal injection capabilities for electrons and holes. Integration into a three top-gate transistor enables effective polarity control and efficient leakage current suppression to limit static power dissipation. Exploiting the advantages of multi-gate transistors, combinational wired-AND gates are shown to be capable of extending a single transistor to a logic gate. Notably, the obtained Al-Si-Ge multi-heterojunction reconfigurable transistors constitute the first CMOS compatible platform to combine efficient polarity control enabling the envisioned performance enhancements of Ge based reconfigurable transistors.

show abstract

In situ TEM heating experiments on thin epitaxial GeSn layers: Modes of phase separation

Martínez,

Minenkov,

Aberl

et al. 2023

APL Materials

View full text Add to dashboard Cite

The thermal stability of GeSn epitaxial thin films was investigated via in situ transmission electron microscopy (TEM). Samples were grown with a similar layer structure and 10 at.% Sn content by either molecular beam epitaxy or chemical vapor deposition. Despite the same layer thickness and concentration, the decomposition mode differs dramatically for each GeSn sample during annealing experiments. We observed that the sample with a Ge buffer on a Ge substrate is structurally stable up to 500 °C, while above this temperature, β-Sn precipitates appear, indicating a decomposition mechanism of solid-state precipitation. On the other hand, the second sample exhibited high susceptibility to Ga ion incorporation during the focused ion beam TEM specimen preparation, which is attributed to a high defect density owing to an atypically thin Ge buffer layer grown on a Si substrate. In this case, the efficient phase separation in the sample was facilitated by Ga contamination, promoting the appearance of a GaSn-based liquid phase at a temperature as low as 200 °C. The decomposition temperatures found and the occurrence of the two different decomposition modes are discussed in relation to the experimental methods used.

show abstract

Relaxation Delay of Ge‐Rich Epitaxial SiGe Films on Si(001)

Cited by 4 publications

References 48 publications

Reconfigurable Field‐Effect Transistor Technology via Heterogeneous Integration of SiGe with Crystalline Al Contacts

Reconfigurable Field‐Effect Transistor Technology via Heterogeneous Integration of SiGe with Crystalline Al Contacts

A Run-Time Reconfigurable Ge Field-Effect Transistor With Symmetric On-States

In situ TEM heating experiments on thin epitaxial GeSn layers: Modes of phase separation

Contact Info

Product

Resources

About