Publications Hossein Karamitaheri

32 records

Publications in Scientific Journals

13.   Karamitaheri, H., Pourfath, M., Kosina, H., Neophytou, N. (2015).
Low-Dimensional Phonon Transport Effects in Ultranarrow Disordered Graphene Nanoribbons.
Physical Review B, 91(165410). https://doi.org/10.1103/physrevb.91.165410 (reposiTUm)

12.   Neophytou, N., Karamitaheri, H., Kosina, H. (2015).
Use of Field-Effect Density Modulation to Increase ZT for Si Nanowires: A Simulation Study.
Journal of Electronic Materials, 44(6), 1599–1605. https://doi.org/10.1007/s11664-014-3488-4 (reposiTUm)

11.   Karamitaheri, H., Neophytou, N., Kosina, H. (2014).
Anomalous Diameter Dependence of Thermal Transport in Ultra-Narrow Si Nanowires.
Journal of Applied Physics, 115(2), 024302. https://doi.org/10.1063/1.4858375 (reposiTUm)

10.   Neophytou, N., Karamitaheri, H., Kosina, H. (2013).
Atomistic Calculations of the Electronic, Thermal, and Thermoelectric Properties of Ultra-Thin Si Layers.
Journal of Computational Electronics, 12(4), 611–622. https://doi.org/10.1007/s10825-013-0522-3 (reposiTUm)

9.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2013).
Atomistic Study of the Lattice Thermal Conductivity of Rough Graphene Nanoribbons.
IEEE Transactions on Electron Devices, 60(7), 2142–2147. https://doi.org/10.1109/ted.2013.2262049 (reposiTUm)

8.   Karamitaheri, H., Neophytou, N., Kosina, H. (2013).
Ballistic Phonon Transport in Ultra-Thin Silicon Layers: Effects of Confinement and Orientation.
Journal of Applied Physics, 113(20), 204305. https://doi.org/10.1063/1.4808100 (reposiTUm)

7.   Karamitaheri, H., Neophytou, N., Taheri, M. K., Faez, R., Kosina, H. (2013).
Calculation of Confined Phonon Spectrum in Narrow Silicon Nanowires Using the Valence Force Field Method.
Journal of Electronic Materials, 42(7), 2091–2097. https://doi.org/10.1007/s11664-013-2533-z (reposiTUm)

6.   Karamitaheri, H., Neophytou, N., Kosina, H. (2013).
Use of Atomistic Phonon Dispersion and Boltzmann Transport Formalism to Study the Thermal Conductivity of Narrow Si Nanowires.
Journal of Electronic Materials, 43(6), 1829–1836. https://doi.org/10.1007/s11664-013-2884-5 (reposiTUm)

5.   Karamitaheri, H., Neophytou, N., Pourfath, M., Faez, R., Kosina, H. (2012).
Engineering Enhanced Thermoelectric Properties in Zigzag Graphene Nanoribbons.
Journal of Applied Physics, 111(5), 054501. https://doi.org/10.1063/1.3688034 (reposiTUm)

4.   Karamitaheri, H., Neophytou, N., Pourfath, M., Kosina, H. (2012).
Study of Thermal Properties of Graphene-Based Structures Using the Force Constant Method.
Journal of Computational Electronics, 11(1), 14–21. https://doi.org/10.1007/s10825-011-0380-9 (reposiTUm)

3.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
Geometrical Effects on the Thermoelectric Properties of Ballistic Graphene Antidot Lattices.
Journal of Applied Physics, 110(5), 054506. https://doi.org/10.1063/1.3629990 (reposiTUm)

2.   Karamitaheri, H., Pourfath, M., Pazoki, M., Faez, R., Kosina, H. (2011).
Graphene-Based Antidots for Thermoelectric Applications.
Journal of The Electrochemical Society, 158(12), K213. https://doi.org/10.1149/2.025112jes (reposiTUm)

1.   Rabiee Golgir, H., Faez, R., Pazoki, M., Karamitaheri, H., Sarvari, R. (2011).
Investigation of Quantum Conductance in Semiconductor Single-Wall Carbon Nanotubes: Effect of Strain and Impurity.
Journal of Applied Physics, 110(6), 064320. https://doi.org/10.1063/1.3641981 (reposiTUm)

Contributions to Books

1.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
An Investigation of the Geometrical Effects on the Thermal Conductivity of Graphene Antidot Lattices.
In Z. Karim, D. Misra, P. Srinivasan, Y. Obeng, S. De Gendt (Eds.), ECS Transactions (pp. 185–192). ECS Transactions. https://doi.org/10.1149/1.3569910 (reposiTUm)

Talks and Poster Presentations (with Proceedings-Entry)

17.   Neophytou, N., Karamitaheri, H., Kosina, H. (2014).
Full-Band Simulations of Thermoelectric Properties of Si Nanowires and Thin Layers.
In Abstracts of The 18th European Conference on Mathematics for Industry (p. 1), Taormina, Italy. (reposiTUm)

16.   Neophytou, N., Karamitaheri, H., Kosina, H. (2013).
Low Dimensional Semiconductor Thermoelectric Materials: Design Approaches From Atomistic Calculations for Electrons and Phonons.
In Book of Abstracts (p. 1), Kobe, Japan. (reposiTUm)

15.   Karamitaheri, H., Neophytou, N., Kosina, H. (2013).
Thermal Conductivity of Si Nanowires Using Atomistic Phonon Dispersions.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 98–99), Urbana-Champaign, IL, USA. (reposiTUm)

14.   Karamitaheri, H., Neophytou, N., Kosina, H. (2013).
Thermal Conductivity of Si Nanowires and Ultra Thin-Layers Using Atomistic Phonon Dispersions.
In Book of Abstracts (p. 1), Kobe, Japan. (reposiTUm)

13.   Neophytou, N., Karamitaheri, H., Kosina, H. (2012).
Atomistic Design of Ultra-Narrow Silicon Nanowires for Improved Electronic and Thermoelectric Applications.
In Abstract Book (p. 46), Thessaloniki, Greece. (reposiTUm)

12.   Karamitaheri, H., Neophytou, N., Kosina, H. (2012).
Calculations of Confined Phonon Spectrum in Narrow Si Nanowires Using the Valence Force Field Method.
In Book of Abstracts (p. 1), Aalborg, Denmark. (reposiTUm)

11.   Karamitaheri, H., Neophytou, N., Pourfath, M., Kosina, H. (2012).
Engineering the Thermoelectric Power Factor of Metallic Graphene Nanoribbons.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 77–78), Urbana-Champaign, IL, USA. (reposiTUm)

10.   Neophytou, N., Karamitaheri, H., Kosina, H. (2012).
Engineering the Thermoelectric Power Factor of Si and Ge Ultra Narrow 1D Nanowires and 2D Thin Layers Using Atomistic Modeling.
In Book of Abstracts (p. 1), Aalborg, Denmark. (reposiTUm)

9.   Karamitaheri, H., Pourfath, M., Kosina, H. (2012).
Highly Sensitive Graphene Antidot Lattice Chemiresitor Sensor.
In Book of Abstracts (p. 1), Delft, Netherlands. (reposiTUm)

8.   Moradinasab, M., Karamitaheri, H., Pourfath, M., Kosina, H. (2012).
On the Role of Stone-Wales Defects on the Performance of Graphene Nanoribbon Photo Detectors.
In Book of Abstracts (p. 1), Delft, Netherlands. (reposiTUm)

7.   Karamitaheri, H., Pourfath, M., Neophytou, N., Kosina, H. (2012).
Theoretical Study of a Zigzag Graphene Nanoribbon Field Effect Transistor.
In ECS Meeting (p. 1), Honolulu, Austria. (reposiTUm)

6.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
An Investigation of ZGNR-Based Transistors.
In Proceedings of the International Semiconductor Device Research Symposium (ISDRS 2011) (p. 2), College Park, MD, USA. (reposiTUm)

5.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
An Investigation of the Geometrical Effects on the Thermal Conductivity of Graphene Antidot Lattices.
In 219th ECS Meeting (p. 1), Montreal, Canada. (reposiTUm)

4.   Karamitaheri, H., Pourfath, M., Neophytou, N., Pazoki, M., Kosina, H. (2011).
First Principle Study of Ballistic Thermal Conductance of Graphene Antidot Lattices for Thermoelectric Applications.
In Proceedings of the 2nd CARBOMAT Workshop (pp. 19–22), Catania, Italy. (reposiTUm)

3.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
Hydrogen-Passivated Graphene Antidot Structures for Thermoelectric Applications.
In 2011 12th Intl. Conf. on Thermal, Mechanical & Multi-Physics Simulation and Experiments in Microelectronics and Microsystems, Linz, Austria, Austria. https://doi.org/10.1109/esime.2011.5765811 (reposiTUm)

2.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2011).
Transport Gap Engineering in Zigzag Graphene Nanoribbons.
In Poster Abstracts Book (TNT 2011) (p. 2), Segovia, Austria. (reposiTUm)

1.   Karamitaheri, H., Pourfath, M., Faez, R., Kosina, H. (2010).
Thermal Properties of Graphene Antidots.
In Abstract Book of the Nanoelectronics Days 2010 (p. 102), Aachen. (reposiTUm)

Doctor's Theses (authored and supervised)