Your search keyword '"Geremew, Adane"' showing total 25 results

1. Current Oscillations in Quasi-2D Charge-Density-Wave 1T-TaS2 Devices: Revisiting the 'Narrow Band Noise' Concept

Author

Geremew, Adane K., Rumyantsev, Sergey, Lake, Roger, and Balandin, Alexander A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, Quantum Physics

Abstract

We report on current oscillations in quasi two-dimensional (2D) 1T-TaS2 charge-density-wave devices. The MHz-frequency range of the oscillations and the linear dependence of the frequency of the oscillations on the current resemble closely the "narrow band noise," which was often observed in the classical bulk quasi-one-dimensional (1D) trichalcogenide charge-density-wave materials. In bulk quasi-1D materials, the "narrow band noise" was interpreted as a direct evidence of the charge-density-wave sliding. Despite the similarities, we argue that the nature of the MHz oscillations in quasi-2D 1T-TaS2 is different from the "narrow band noise." Analysis of the biasing conditions and current indicate that the observed oscillations are related to the current instabilities due to the voltage-induced transition from the nearly commensurate to incommensurate charge-density-wave phase., Comment: 16 pages, 4 figures

Published

2020

2. Low-Frequency Electronic Noise in Superlattice and Random-Packed Thin Films of Colloidal Quantum Dots

Author

Geremew, Adane, Qian, Caroline, Abelson, Alex, Rumyantsev, Sergey, Kargar, Fariborz, Law, Matt, and Balandin, Alexander A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

We report measurements of low-frequency electronic noise in ordered superlattice, weakly-ordered and random-packed thin films of 6.5 nm PbSe quantum dots prepared using several different ligand chemistries. For all samples, the normalized noise spectral density of the dark current revealed a Lorentzian component, reminiscent of the generation-recombination noise, superimposed on the 1/f background (f is the frequency). An activation energy of 0.3 eV was extracted from the temperature dependence of the noise spectra. The noise level in the ordered films was lower than that in the weakly-ordered and random-packed films. A large variation in the magnitude of the noise spectral density was also observed in samples with different ligand treatments. The obtained results are important for application of colloidal quantum dot films in photodetectors., Comment: 24 pages, 6 figures and supplemental info

Published

2019

3. Thermal Properties of the Binary-Filler Composites with Few-Layer Graphene and Copper Nanoparticles

Author

Barani, Zahra, Mohammadzadeh, Amirmahdi, Geremew, Adane, Huang, Chun Yu Tammy, Coleman, Devin, Mangolini, Lorenzo, Kargar, Fariborz, and Balandin, Alexander A.

Subjects

Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The thermal properties of an epoxy-based binary composites comprised of graphene and copper nanoparticles are reported. It is found that the "synergistic" filler effect, revealed as a strong enhancement of the thermal conductivity of composites with the size-dissimilar fillers, has a well-defined filler loading threshold. The thermal conductivity of composites with a moderate graphene concentration of ~15 wt% exhibits an abrupt increase as the loading of copper nanoparticles approaches ~40 wt%, followed by saturation. The effect is attributed to intercalation of spherical copper nanoparticles between the large graphene flakes, resulting in formation of the highly thermally conductive percolation network. In contrast, in composites with a high graphene concentration, ~40 wt%, the thermal conductivity increases linearly with addition of copper nanoparticles. The electrical percolation is observed at low graphene loading, less than 7 wt.%, owing to the large aspect ratio of graphene. At all concentrations of the fillers, below and above the electrical percolation threshold, the thermal transport is dominated by phonons. The obtained results shed light on the interaction between graphene fillers and copper nanoparticles in the composites and demonstrate potential of such hybrid epoxy composites for practical applications in thermal interface materials and adhesives., Comment: 25 pages, 4 figures

Published

2019

4. Low Resistivity and High Breakdown Current Density of 10-nm Diameter van der Waals TaSe3 Nanowires by Chemical Vapor Deposition

Author

Empante, Thomas A., Martinez, Aimee, Wurch, Michelle, Zhu, Yanbing, Geremew, Adane K., Yamaguchi, Koichi, Isarraraz, Miguel, Rumyantsev, Sergey, Reed, Evan J., Balandin, Alexander A., and Bartels, Ludwig

Subjects

Condensed Matter - Materials Science

Abstract

Micron-scale single-crystal nanowires of metallic TaSe3, a material that forms -Ta-Se3-Ta-Se3- stacks separated from one another by a tubular van der Waals (vdW) gap, have been synthesized using chemical vapor deposition (CVD) on a SiO2/Si substrate, in a process compatible with semiconductor industry requirements. Their electrical resistivity was found unaffected by downscaling from the bulk to as little as 7 nm in width and height, in striking contrast to the resistivity of copper for the same dimensions. While the bulk resistivity of TaSe3 is substantially higher than that of bulk copper, at the nanometer scale the TaSe3 wires become competitive to similar-sized copper ones. Moreover, we find that the vdW TaSe3 nanowires sustain current densities in excess of 108 A/cm2 and feature an electromigration energy barrier twice that of copper. The results highlight the promise of quasi-one-dimensional transition metal trichalcogenides for electronic interconnect applications and the potential of van der Waals materials for downscaled electronics.

Published

2019

5. Low-Frequency Noise Spectroscopy of Charge-Density-Wave Phase Transitions in Vertical Quasi-2D Devices

Author

Salgado, Ruben, Mohammadzadeh, Amirmahdi, Kargar, Fariborz, Geremew, Adane, Huang, Chun-Yu, Bloodgood, Matthew A., Rumyantsev, Sergey, Salguero, Tina T., and Balandin, Alexander A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

We report results regarding the electron transport in vertical quasi-2D layered 1T-TaS2 charge-density-wave devices. The low-frequency noise spectroscopy was used as a tool to study changes in the cross-plane electrical characteristics of the quasi-2D material below room temperature. The noise spectral density revealed strong peaks - changing by more than an order-of-magnitude - at the temperatures closely matching the electrical resistance steps. Some of the noise peaks appeared below the temperature of the commensurate to nearly-commensurate charge-density-wave transition, possibly indicating the presence of the debated "hidden" phase transitions. These results confirm the potential of the noise spectroscopy for investigations of electron transport and phase transitions in novel materials., Comment: 16 pages; 5 figures

Published

2019

6. Anomalous Characteristics of the Generation - Recombination Noise in Quasi-One-Dimensional Van der Waals Nanoribbons

Author

Geremew, Adane K., Rumyantsev, Sergey, Bloodgood, Matthew A., Salguero, Tina T., and Balandin, Alexander A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

We describe the low-frequency current fluctuations, i.e. electronic noise, in quasi-one-dimensional ZrTe3 van der Waals nanoribbons, which have recently attracted attention owing to their extraordinary high current carrying capacity. Whereas the low-frequency noise spectral density reveals 1/f behavior near room temperature, it is dominated by the Lorentzian bulges of the generation - recombination noise at low temperatures (f is the frequency). Unexpectedly, the corner frequency of the observed Lorentzian peaks shows strong sensitivity to the applied source - drain bias. This dependence on electric field can be explained by the Frenkel-Poole effect in the scenario where the voltage drop happens predominantly on the defects, which block the quasi-1D conduction channels. We also have found that the activation energy of the characteristic frequencies of the G-R noise in quasi-1D ZrTe3 is defined primarily by the temperature dependence of the capture cross-section of the defects rather than by their energy position. These results are important for the application of quasi-1D van der Waals materials in ultimately downscaled electronics., Comment: 22 pages; 7 figures

Published

2018

7. Unique features of the generation–recombinationnoise in quasi-one-dimensional van der Waalsnanoribbons

Author

Geremew, Adane K., Rumyantsev, Sergey, Bloodgood, Matthew A., Salguero, Tina T., and Balandin, Alexander A.

Published

2018

8. Transistor-Less Logic Circuits Implemented With2-D Charge Density Wave Devices

Author

Khitun, Alexander G., Geremew, Adane K., and Balandin, Alexander A.

Published

2018

9. Electronic Transport and Switching Phenomena in Low-Dimensional Materials

Author

Geremew, Adane K

Subjects

Electrical engineering, Nanotechnology

Abstract

This dissertation reports results of an investigation of electron transport in two classes of layered van der Waals materials: quasi-one-dimensional (1D) transition metal trichalcogenides (TMTs) and quasi-two-dimensional (2D) transition metal dichalcogenides (TMDs). Practical motivations for this study include the search for (i) materials, which can be used in ultimately downscaled interconnects in the next generations of electronics, and (ii) materials revealing low power switching phenomena, which can be used in future logic circuits. TMTs have strong covalent bonds in one direction and weaker bonds in cross-plane directions. They can be prepared as crystalline nanoribbons consisting of 1D atomic threads, i.e. chains. I have examined the current carrying capacity of ZrTe3 nanoribbons using structures fabricated by the shadow mask method. It was found that ZrTe3 nanoribbons reveal an exceptionally high current density, on the order of ~100 MA/cm2, at the peak of the stressing current. I have investigated the low-frequency electronic noise in such nanoribbons. The low-frequency noise data were used to determine the activation energy for electromigration. TMDs reveal interesting charge-density-wave (CDW) effects, which can be triggered by electric bias even at various temperatures. I investigated switching among three CDW phases – commensurate, nearly commensurate, incommensurate – and the normal metallic phase in 1T-TaS2 devices induced by application of an in-plane bias voltage. The switching among all phases was achieved over a wide temperature range, from 77 K to 400 K. The electronic noise spectroscopy was used as an effective tool for monitoring the transitions. The noise exhibits sharp increases at the phase transition points, which correspond to the step-like changes in resistivity. The possibility of the bias-voltage switching among four different phases of 1T-TaS2 is a promising step toward nanoscale device applications. The results also demonstrate the potential of noise spectroscopy for investigating and identifying phase transitions in the materials.

Published

2019

10. High-frequency current oscillations in charge-density-wave 1T-TaS2 devices: Revisiting the “narrow band noise” concept

Author

Geremew, Adane K., primary, Rumyantsev, Sergey, additional, Debnath, Bishwajit, additional, Lake, Roger K., additional, and Balandin, Alexander A., additional

Published

2020

11. Thermal Properties of the Binary‐Filler Hybrid Composites with Graphene and Copper Nanoparticles

Author

Barani, Zahra, primary, Mohammadzadeh, Amirmahdi, additional, Geremew, Adane, additional, Huang, Chun‐Yu, additional, Coleman, Devin, additional, Mangolini, Lorenzo, additional, Kargar, Fariborz, additional, and Balandin, Alexander A., additional

Published

2019

12. Low Resistivity and High Breakdown Current Density of 10 nm Diameter van der Waals TaSe3 Nanowires by Chemical Vapor Deposition

Author

Empante, Thomas A., primary, Martinez, Aimee, additional, Wurch, Michelle, additional, Zhu, Yanbing, additional, Geremew, Adane K., additional, Yamaguchi, Koichi, additional, Isarraraz, Miguel, additional, Rumyantsev, Sergey, additional, Reed, Evan J., additional, Balandin, Alexander A., additional, and Bartels, Ludwig, additional

Published

2019

13. Bias-Voltage Driven Switching of the Charge-Density-Wave and Normal Metallic Phases in 1T-TaS2 Thin-Film Devices

Author

Geremew, Adane K., primary, Rumyantsev, Sergey, additional, Kargar, Fariborz, additional, Debnath, Bishwajit, additional, Nosek, Adrian, additional, Bloodgood, Matthew A., additional, Bockrath, Marc, additional, Salguero, Tina T., additional, Lake, Roger K., additional, and Balandin, Alexander A., additional

Published

2019

14. Low-frequency noise spectroscopy of charge-density-wave phase transitions in vertical quasi-2D 1T-TaS2 devices

Author

Salgado, Ruben, primary, Mohammadzadeh, Amirmahdi, additional, Kargar, Fariborz, additional, Geremew, Adane, additional, Huang, Chun-Yu, additional, Bloodgood, Matthew A., additional, Rumyantsev, Sergey, additional, Salguero, Tina T., additional, and Balandin, Alexander A., additional

Published

2019

15. Low-frequency electronic noise in superlattice and random-packed thin films of colloidal quantum dots

Author

Geremew, Adane, primary, Qian, Caroline, additional, Abelson, Alex, additional, Rumyantsev, Sergey, additional, Kargar, Fariborz, additional, Law, Matt, additional, and Balandin, Alexander A., additional

Published

2019

16. Thermal Properties of the Binary‐Filler Hybrid Composites with Graphene and Copper Nanoparticles.

Author

Barani, Zahra, Mohammadzadeh, Amirmahdi, Geremew, Adane, Huang, Chun‐Yu, Coleman, Devin, Mangolini, Lorenzo, Kargar, Fariborz, and Balandin, Alexander A.

Subjects

THERMAL properties, THERMAL interface materials, GRAPHENE, NANOPARTICLES, PERCOLATION

Abstract

The thermal properties of epoxy‐based binary composites comprised of graphene and copper nanoparticles are reported. It is found that the "synergistic" filler effect, revealed as a strong enhancement of the thermal conductivity of composites with the size‐dissimilar fillers, has a well‐defined filler loading threshold. The thermal conductivity of composites with a moderate graphene concentration of fg = 15 wt% exhibits an abrupt increase as the loading of copper nanoparticles approaches fCu ≈ 40 wt%, followed by saturation. The effect is attributed to intercalation of spherical copper nanoparticles between the large graphene flakes, resulting in formation of the highly thermally conductive percolation network. In contrast, in composites with a high graphene concentration, fg = 40 wt%, the thermal conductivity increases linearly with addition of copper nanoparticles. A thermal conductivity of 13.5 ± 1.6 Wm−1K−1 is achieved in composites with binary fillers of fg = 40 wt% and fCu = 35 wt%. It has also been demonstrated that the thermal percolation can occur prior to electrical percolation even in composites with electrically conductive fillers. The obtained results shed light on the interaction between graphene fillers and copper nanoparticles in the composites and demonstrate potential of such hybrid epoxy composites for practical applications in thermal interface materials and adhesives. [ABSTRACT FROM AUTHOR]

Published

2020

17. High-Vacuum Particulate-Free Deposition of Wafer-Scale Mono-, Bi-, and Trilayer Molybdenum Disulfide with Superior Transport Properties

Author

Almeida, Kortney, primary, Wurch, Michelle, additional, Geremew, Adane, additional, Yamaguchi, Koichi, additional, Empante, Thomas A., additional, Valentin, Michael D., additional, Gomez, Michael, additional, Berges, Adam J., additional, Stecklein, Gordon, additional, Rumyantsev, Sergey, additional, Martinez, Joseph, additional, Balandin, Alexander A., additional, and Bartels, Ludwig, additional

Published

2018

18. Transistor-Less Logic Circuits Implemented With 2-D Charge Density Wave Devices

Author

Khitun, Alexander G., primary, Geremew, Adane K., additional, and Balandin, Alexander A., additional

Published

2018

19. Unique Features of Electron Transport and Low-Frequency Noise in Quasi-One-Dimensional ZrTe3 van der Waals Nanoribbons

Author

Geremew, Adane K., primary, Bloodgood, Matthew A., additional, Salguero, Tina T., additional, Rumyantsev, Sergey, additional, and Balandin, Alexander A., additional

Published

2018

20. Unique features of the generation–recombination noise in quasi-one-dimensional van der Waals nanoribbons

Author

Geremew, Adane K., primary, Rumyantsev, Sergey, additional, Bloodgood, Matthew A., additional, Salguero, Tina T., additional, and Balandin, Alexander A., additional

Published

2018

21. Low Resistivity and High Breakdown Current Density of 10 nm Diameter van der Waals TaSe3 Nanowires by Chemical Vapor Deposition.

Author

Empante, Thomas A., Martinez, Aimee, Wurch, Michelle, Zhu, Yanbing, Geremew, Adane K., Yamaguchi, Koichi, Isarraraz, Miguel, Rumyantsev, Sergey, Reed, Evan J., Balandin, Alexander A., and Bartels, Ludwig

Published

2019

22. Bias-Voltage Driven Switching of the Charge-Density-Wave and Normal Metallic Phases in 1T-TaS2 Thin-Film Devices.

Author

Geremew, Adane K., Rumyantsev, Sergey, Kargar, Fariborz, Debnath, Bishwajit, Nosek, Adrian, Bloodgood, Matthew A., Bockrath, Marc, Salguero, Tina T., Lake, Roger K., and Balandin, Alexander A.

Published

2019

23. Bias-Voltage Driven Switching of the Charge-Density-Wave and Normal Metallic Phases in 1T-TaS2Thin-Film Devices

Author

Geremew, Adane K., Rumyantsev, Sergey, Kargar, Fariborz, Debnath, Bishwajit, Nosek, Adrian, Bloodgood, Matthew A., Bockrath, Marc, Salguero, Tina T., Lake, Roger K., and Balandin, Alexander A.

Abstract

We report on switching among three charge-density-wave phases, commensurate, nearly commensurate, incommensurate, and the high-temperature normal metallic phase in thin-film 1T-TaS2devices induced by application of an in-plane bias voltage. The switching among all phases has been achieved over a wide temperature range, from 77 to 400 K. The low-frequency electronic noise spectroscopy has been used as an effective tool for monitoring the transitions, particularly the switching from the incommensurate charge-density-wave phase to the normal metal phase. The noise spectral density exhibits sharp increases at the phase transition points, which correspond to the step-like changes in resistivity. Assignment of the phases is consistent with low-field resistivity measurements over the temperature range from 77 to 600 K. Analysis of the experimental data and calculations of heat dissipation indicate that Joule heating plays a dominant role in the voltage induced transitions in the 1T-TaS2devices on Si/SiO2substrates, contrary to some recent claims. The possibility of the bias-voltage switching among four different phases of 1T-TaS2is a promising step toward nanoscale device applications. The results also demonstrate the potential of noise spectroscopy for investigating and identifying phase transitions in the materials.

Published

2019

24. Low Resistivity and High Breakdown Current Density of 10 nm Diameter van der Waals TaSe3Nanowires by Chemical Vapor Deposition

Author

Empante, Thomas A., Martinez, Aimee, Wurch, Michelle, Zhu, Yanbing, Geremew, Adane K., Yamaguchi, Koichi, Isarraraz, Miguel, Rumyantsev, Sergey, Reed, Evan J., Balandin, Alexander A., and Bartels, Ludwig

Abstract

Micron-scale single-crystal nanowires of metallic TaSe3, a material that forms −Ta–Se3–Ta–Se3– stacks separated from one another by a tubular van der Waals (vdW) gap, have been synthesized using chemical vapor deposition (CVD) on a SiO2/Si substrate, in a process compatible with semiconductor industry requirements. Their electrical resistivity was found unaffected by downscaling from the bulk to as little as 7 nm in nanowire width and height, in striking contrast to the resistivity of copper for the same dimensions. While the bulk resistivity of TaSe3is substantially higher than that of bulk copper, at the nanometer scale the TaSe3wires become competitive to similar-sized copper ones. Moreover, we find that the vdW TaSe3nanowires sustain current densities in excess of 108A/cm2and feature an electromigration energy barrier twice that of copper. The results highlight the promise of quasi-one-dimensional transition metal trichalcogenides for electronic interconnect applications and the potential of van der Waals materials for downscaled electronics.

Published

2019

25. Bias-Voltage Driven Switching of the Charge-Density-Wave and Normal Metallic Phases in 1T-TaS 2 Thin-Film Devices.

Author

Geremew AK, Rumyantsev S, Kargar F, Debnath B, Nosek A, Bloodgood MA, Bockrath M, Salguero TT, Lake RK, and Balandin AA

Abstract

We report on switching among three charge-density-wave phases, commensurate, nearly commensurate, incommensurate, and the high-temperature normal metallic phase in thin-film 1T-TaS 2 devices induced by application of an in-plane bias voltage. The switching among all phases has been achieved over a wide temperature range, from 77 to 400 K. The low-frequency electronic noise spectroscopy has been used as an effective tool for monitoring the transitions, particularly the switching from the incommensurate charge-density-wave phase to the normal metal phase. The noise spectral density exhibits sharp increases at the phase transition points, which correspond to the step-like changes in resistivity. Assignment of the phases is consistent with low-field resistivity measurements over the temperature range from 77 to 600 K. Analysis of the experimental data and calculations of heat dissipation indicate that Joule heating plays a dominant role in the voltage induced transitions in the 1T-TaS 2 devices on Si/SiO 2 substrates, contrary to some recent claims. The possibility of the bias-voltage switching among four different phases of 1T-TaS 2 is a promising step toward nanoscale device applications. The results also demonstrate the potential of noise spectroscopy for investigating and identifying phase transitions in the materials.

Published

2019