“*Quantum transport regimes in quartic dispersion materials with Anderson disorder
*”

M Polat, H Ozkan, H Sevinçli

Journal of Applied Physics **135**, 164301 (2024)

“*The peculiar potential of transition metal dichalcogenides for thermoelectric applications: A perspective on future computational research*”

G Ozbal Sargin, S Sarikurt, H Sevinçli, C Sevik

Journal of Applied Physics **133**, 150902 (2023)

“*Indirect exchange interaction in two-dimensional materials with quartic dispersion*”

Ahmet Utku Canbolat, Hâldun Sevinçli, Ozgur Cakir

Phys. Rev. B **106**, 104409 (2022)

“*Toward Optimized Charge Transport in Multilayer Reduced Graphene Oxides*”

Mustafa Neset Cinar, Aleandro Antidormi, Viet-Hung Nguyen, Alessandro Kovtun, Samuel Lara-Avila, Andrea Liscio, Jean-Christophe Charlier, Stephan Roche, and Hâldun Sevinçli

Nano Letters **22**, 2202 (2022)

“*Ballistic thermoelectric transport properties of two-dimensional group III-VI monolayers*”

Mustafa Neset Cinar, Gözde Özbal Sargın, Koray Sevim, Burak Özdamar, Gizem Kurt, and Hâldun Sevinçli

Phys. Rev. B 103, 16542 (2021)

“*Enhancement of thermoelectric efficiency of T−HfSe _{2} via nanostructuring*”

E. Unsal, R. T. Senger, and H. Sevinçli

Phys. Rev. B 103, 014104 (2021)

“*First-Principles Investigation of Photoisomeric Switching of Vibrational Heat Current across Molecular Junctions*”

G. Kurt, H. Sevinçli

Physical Review Applied 14, 064045 (2020)

“*Dimensional crossover and enhanced thermoelectric efficiency due to broken symmetry in graphene antidot lattices*”

M. N. Çınar, H. Sevinçli

Physical Review Applied 14, 024075 (2020)

“*Collapse of the vacuum in hexagonal graphene quantum dots: A comparative study between tight-binding and mean-field Hubbard models*”

M. Polat, H. Sevinçli, A. D. Güçlü

Physical Review B 101, 205429 (2020)

“*Structural, electronic, and magnetic properties of point defects in polyaniline (C _{3}N) and graphene monolayers: A comparative study*”

K. Sevim, H. Sevinçli

Journal of Applied Physics 127, 195102 (2020)

“*Ballistic thermoelectric properties of monolayer semiconducting transition metal dichalcogenides and oxides*”

G. Özbal, R. T. Senger, C. Sevik, and H. Sevinçli

Phys. Rev. B **100**, 085415 (2019)

“*Green function, quasi-classical Langevin and Kubo–Greenwood methods in quantum thermal transport*”

H Sevinçli, S Roche, G Cuniberti, M Brandbyge, R Gutierrez and L Medrano Sandonas

J. Phys.: Condens. Matter **31**, 273003 (2019)

“*Structural, Vibrational and Electronic Properties of Single Layer Hexagonal Crystals of Groups IV and V*”

B. Ozdamar, G. Ozbal, M. N. Cinar, K. Sevim, G. Kurt, B. Kaya, H. Sevinçli

Phys. Rev. B **98**, 045431 (2018)

*“Directed Growth of Hydrogen Lines on Graphene: High Throughput Simulations Powered by Evolutionary Algorithm” *

G. Ozbal, J. T. Falkenberg, M. Brandbyge, R. T. Senger, H. Sevinçli

Phys. Rev. Materials **2**, 073406 (2018)

*“Tuning thermal transport in graphene via combinations of molecular antiresonances” *

K. Sevim, H. Sevinçli

Carbon **140**, 603 (2018)

*“First-Principle-Based Phonon Transport Properties of Nanoscale Graphene Grain Boundaries” *

L.M. Sandonas, H. Sevinçli, R. Gutierrez, G. Cuniberti

Advanced Science, 1700365 (2017)

*“Quartic Dispersion, Strong Singularity, Magnetic Instability, and Unique Thermoelectric Properties in Two-Dimensional Hexagonal Lattices of Group-VA Elements” *

H. Sevinçli,

Nano Letters **17**, 2589 (2017)

*“Promising thermoelectric properties of phosphorenes” *

C. Sevik, H. Sevinçli,

Nanotechnology **27**, 355705 (2016)

*“Electronic, phononic, and thermoelectric properties of graphyne sheets” *

H. Sevinçli, C. Sevik

App. Phys. Lett. **105**, 223408 (2014)

*“Phonon scattering in graphene over substrate steps” *

H. Sevinçli, M. Brandbyge

App. Phys. Lett. **105**, 153108 (2014)

*“Quantum interference in thermoelectric molecular junctions: A toy model perspective” *

D. Nozaki, S. M. Avdoshenko, H. Sevinçli, G. Cuniberti

Journal of Applied Physics **116**, 074308 (2014)

*“Comparison of electron and phonon transport in disordered semiconductor carbon nanotubes” *

H. Sevinçli, T. Lehmann, D. A. Ryndyk, G. Cuniberti

Journal of Computational Electronics **12**, 685 (2013)

*“Topological Signatures in the Electronic Structure of Graphene Spirals” *

S. M. Avdoshenko, P. Koskinen, H. Sevinçli, A. A. Popov, C. G. Rocha

Scientific Reports **3**, 1632 (2013)

*“A parabolic model to control quantum interference in T-shaped molecular junctions” *

D. Nozaki, H. Sevinçli, S. M. Avdoshenko, R. Gutierrez, G. Cuniberti

Phys. Chem. Chem. Phys. **15**, 13951 (2013)

*“Prediction of quantum interference in molecular junctions using a parabolic diagram: Understanding the origin of Fano and anti-resonances” *

D. Nozaki, S. M. Avdoshenko, H. Sevinçli, R. Gutierrez, G. Cuniberti

Journal of Physics: Conference Series **427**, 012013 (2013)

*“A bottom-up route to enhance thermoelectric figures of merit in graphene nanoribbons” *

H. Sevinçli, C. Sevik, T. Cagin, G. Cuniberti

Scientific Reports **3**, 1228 (2013)

*“Functionalization of Graphene Nanoribbons” *

H. Sevinçli, M. Topsakal, S. Ciraci

in “Low Dimensional Semiconductor Structures, NanoScience and Technology”

Springer (Berlin, Heidelberg 2013) pp. 69-92

*“Effects of domains in phonon conduction through hybrid boron nitride and graphene sheets” *

**H. Sevinçli**, W. Li, N. Mingo, G. Cuniberti, and S. Roche

Phys. Rev. B **84**, 205444 (2011)

*“Phonon Engineering in Carbon Nanotubes by Controlling Defect Concentration” *

C. Sevik, **H. Sevinçli**, G. Cuniberti, and T. Cagin

Nano Lett. **11**, 4971 (2011)

*“Tailoring the physical properties of graphene” *

C. G. Rocha, M. H. Rummeli, I. Ibrahim, **H. Sevinçli**, F. Borrnert, J. Kunstmann, A. Bachmatiuk, M. Potschke, W. Li, S. A. M. Makharza, S. Roche, B. Buchner, and G. Cuniberti

In *Graphene: Synthesis and Applications*, CRC Press (2011) ISBN:1439861870

*“Graphene: Piecing it Together” *

M. H. Rummeli, C. G. Rocha, F. Ortmann, I. Ibrahim, **H. Sevinçli**, F. Borrnert, J. Kunstmann, A. Bachmatiuk, M. Potschke, M. Shiraishi, M. Meyyappan, B. Buchner, S. Roche, G. Cuniberti

Advanced Materials **23**, 4471 (2011)

*“Efficient linear scaling method for computing the thermal conductivity of disordered materials” *

W. Li, **H. Sevinçli**, S. Roche, and G. Cuniberti

Phys. Rev. B **83**, 155416 (2011) (Editors’ suggestion)

*“Control of Thermal and Electronic Transport in Defect-Engineered Graphene Nanoribbons” *

J. B. Haskins , A. Kinaci , C. Sevik , **H. Sevinçli**, G. Cuniberti , and T. Cagin

ACS Nano **5**, 3779 (2011)

*“Phonon transport in large scale carbon-based disordered materials: Implementation of an efficient order-N and real-space Kubo methodology” *

W. Li, **H. Sevinçli**, G. Cuniberti, and S. Roche

Phys. Rev. B **82**, 041410(R) (2010)

*“Engineering the thermopower in semiconductor-molecule junctions: towards high thermoelectric efficiency at the nanoscale” *

D. Nozaki, **H. Sevinçli**, W. Li, R. Gutierrez, and G. Cuniberti

Phys. Rev. B **81**, 235406 (2010)

*“Enhanced thermoelectric figure of merit in edge disordered zigzag graphene nanoribbons” *

**H. Sevinçli** and G. Cuniberti

Phys. Rev. B **81**, 113401 (2010)

*“Status of modelling for nanoscale information processing and storage devices” *

M. Macucci, S. Roche, A. Correia, J. Greer, X. Bouju, M. Brandbyge, J. J. Saenz, M. Bescond, D. Rideau, P. Blaise, D. Sanchez-Portal, J. Iniguez, G. Cuniberti, and **H. Sevinçli**

E-Nano Newsletter, **16**, 5 (2009)

*“Electronic and Magnetic Properties of TM-Atom Adsorbed Graphene and Graphene Nano-Ribbons” *

**H. Sevinçli**, M. Topsakal, E. Durgun and S. Ciraci

Phys. Rev. B **77**, 195434 (2008)

*“Superlattice Structures of Graphene Based Armchair Nanoribbons” *

**H. Sevinçli**, M. Topsakal, and S. Ciraci,

Phys. Rev. B **78**, 245402 (2008)

*“Spin confinement in the superlattices of graphene nanoribbons” *

M. Topsakal, **H. Sevinçli** and S. Ciraci

App. Phys. Lett. **92**, 173118 (2008)

*“First-principles approach to monitoring the band gap and magnetic state of a graphene nanoribbon via its vacancies” *

M. Topsakal, E. Akturk, **H. Sevinçli**, and S. Ciraci

Phys. Rev. B **78**, 235435 (2008)

*“Oscillatory Exchange Coupling in Linear Magnetic Molecules” *

**H. Sevinçli**, R. T. Senger, E. Durgun and S. Ciraci

J. Phys. Cond. Matt. **19**, 216205 (2007)

*“Dynamics of Phononic Dissipation at the Atomic Scale: Dependence on Internal Degrees of Freedom” *

**H. Sevinçli**, S. Mukhopadhyay, R. T. Senger and S. Ciraci

Phys. Rev. B **76**, 205430 (2007)

*“Size-dependent alternation of magnetoresistive properties in atomic chains” *

E. Durgun, R. T. Senger, H. Mehrez, **H. Sevinçli**, S. Ciraci

J. Chem. Phys. **125**, 121102 (2006)

*“Spintronic properties of carbon-based one-dimensional molecular structures” *

E. Durgun, R. T. Senger, **H. Sevinçli**, H. Mehrez, and S. Ciraci

Phys. Rev. B **74**, 235413 (2006)

*Non-Markovian decoherence: A critique of the two-level approximation *

T. Hakioglu, K. Savran, **H. Sevinçli**, E. Mese

J. Magn. Magn. Mater. **300**, 579 (2006)

*“The off-resonant aspects of decoherence and a critique of the two-level approximation” *

K. Savran, T. Hakioglu, E. Mese, **H. Sevinçli**

J. Phys. Cond. Matt. **18**, 345 (2006).

Deparment of Physics, Bilkent University, 06800 Ankara, Turkey.