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Resistivity Modeling of Copper Nanowires with Sub-100 nm Diameter
Electronic Properties and Ballistic Transport in the 1D van der Waals Material Si2Br4
QUDEN: A Matlab Package for First‐Principles Quantum‐Transport Engineering of 2D Material‐Based Nanodevices
Immunity of Electronic Properties of Monolayer Germanium-Sulfide Nanoribbons to Edge Defects
QUDEN25 - 2025 Open Edition of the Quantum-Transport Device Engineering for Nanoelectronics Software
Investigation of the One-Dimensional Semiconductor I4Si2 as a FET Channel Material
Validity of the Ballistic Top-of-the-Barrier Model for FETs Based on 2D Material Nanoribbons
Ballistic performance and overshoot effects in gallenene nanoribbon field-effect transistors
Ballistic Performance of Quasi-One-Dimensional Hafnium Disulfide Field-Effect Transistors
Impact of Vacancies on the Transport Properties of Monolayer Germanium-Sulfide Nanoribbons
Intrinsic performance limits of extremely scaled field-effect transistors based on MX2 (M = {Zr, Hf}, X = {S, Se}) nanoribbons
Determining Graphene and Substrate Quality from the Coupled Hall Mobility Measurements and Theoretical Modeling
Modulation of ballistic injection velocity in phosphorene nanodevices by bias and confinement effects
Modulation of ballistic injection velocity in phosphorene nanodevices by bias and confinement effects
Optimum contact configurations for quasi-one-dimensional phosphorene nanodevices
Tunneling Attenuation and Leakage Current in MoS2 Nanoribbon MOSFETs
Transport Properties and Device Performance of Quasi-One-Dimensional MoS2 FETs
Bandgap Narrowing in Silicene Nanoribbons with Metal Edge Contacts
Electronic, Transport and Ballistic Device Properties of Quasi-One-Dimensional GeS
Bandstructure and Size-Scaling Effects in the Performance of Monolayer Black Phosphorus Nanodevices
Impact of Contact Configuration on Contact Resistance in Ultra-Narrow Graphene Nanoribbon Devices
Lower Limits of Contact Resistance in Phosphorene Nanodevices with Edge Contacts
Parallelized Ab Initio Quantum Transport Simulation of Nanoscale Bismuthene Devices
SPARQS - Scalable Parallel Quantum-Transport Solver for 2D Material Nanodevices with ab-initio Hamiltonians
Ab Initio Quantum Transport Simulations of Monolayer GeS Nanoribbons
QUDEN4
Ab Initio Quantum Transport Simulations of Monolayer GeS Nanoribbons
Bandstructure and Transport Properties of Semiconducting Gallenene Nanoribbons
DFT-Based Tight-Binding Model for Atomistic Simulations of Phosphorene Nanoribbons
Estimating OFF-state Leakage in Silicene Nanoribbon MOSFETs from Complex Bandstructure
Extraction of contact resistance from Green's function simulations of 2D material nanoribbon devices
Metallization-Induced Quantum Limits of Contact Resistance in Graphene Nanoribbons with One-Dimensional Contacts
Bandstructure Effects in Phosphorene Nanoribbon MOSFETs from NEGF Simulations Using a New DFT-based Tight-binding Hamiltonian Model
Minimum Contact Resistance in Monoelemental 2D Material Nanodevices with Edge-Contacts
QUDEN3
Quantum Transport Simulations of Phosphorene Nanoribbon MOSFETs: Effects of Metal Contacts, Ballisticity and Series Resistance
Biography
Mislav Matić, PhD is Senior Researcher on DURATRANS project at the Faculty of Electrical Engineering and Computing, University of Zagreb. At this institution, he received a PhD in the field of nanoelectronics in October 2024 under the supervision of Assoc. Prof. Mirko Poljak. He participated in the SiNANO 2022 summer school in Glasgow, UK, and the European School On Nanosciences and Nanotechnologies (ESONN) 2023 in Grenoble, France. In addition, he was a visiting researcher at IHP-Frankfurt, Germany, twice for 2 weeks in 2022 and 2023 as part of the bilateral Croatia-Germany project GRONGER led by Assoc. Prof. Mirko Poljak, PhD and Mindaugas Lukosius, PhD. His research efforts focus on the development of advanced atomistic simulation software to predict the performance of nanotransistors based on 2D materials and simulations of flexible transparent conductive surfaces. To date, he has authored or co-authored 16 journal papers and 15 conference papers.
Teaching
University undergraduate
- Electronics 2 (Laboratory exercises)
Competences
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Computers and information processing
Programming Parallel programming High performance computing -
Electron devices
Quantum computing Quantum well devices Quantum wells Semiconductor devices Quantum dots Semiconductor device modeling Transistors Field effect transistors Tunneling Resonant tunneling devices -
Engineering – general
Electrical engineering Electrical engineering computing -
Mathematics
Linear algebra Algorithms Parallel algorithms Eigenvalues and eigenfunctions Mathematical model Mathematical analysis Mathematical programming Nonlinear systems Numerical analysis Finite difference methods Finite element analysis Iterative methods Iterative algorithms Numerical simulation Sparse matrices Mathematical programming -
Nanotechnology
Nanoelectronics Nanomaterials Nanoscale devices Nanocontacts Nanostructured materials Nanostructures Nanoribbons Nanowires Semiconductor nanostructures -
Instrumentation and measurement
Quantum capacitance Current Current-voltage characteristics -
Materials, elements, and compounds
Semiconductor materials -
Science – general
Quantum mechanics Density functional theory Quantum capacitance Quantum entanglement Relativistic quantum mechanics Schrodinger equation Tunneling Solid-state physics
Professional memberships
Research interests:
- nanoelectronics and quantum transport
- numerical modeling and simulation - from atomistic scale to compact models for circuit simulation
- parallel programming and computing in hybrid environments (C, OpenMP, MPI, BLAS, LAPACK, Nvidia CUDA)
- 2D and 1D materials
Memberships:
- IEEE Member
- IEEE, IEEE Electron Devices Society
- Croatian Society MIPRO
Personal data
Past employments
2020 - 2024 - Research Assistant (FER)
2024 - Senior Researcher (FER)