Adamantia Logotheti
Research: optimization of wide band gap (GaN) and ultra-wide band gap (Gallium Oxide) electronic devices for fast power switching in electric car applications.
Office: B107; Phone; +46 (0)46 222 4495
E-mail: adamantia.logotheti [at] ftf.lth.se;
Personal page of Adamantia Logotheti

Antti Ranni
Research: Experimental studies on single-electron devices
Office: Q139; Phone: +46 (0)46 222 3917
E-mail: antti.ranni [at] ftf.lth.se;
Personal page of Antti Ranni

Asmita Jash
Research: Optical studies of nanowire
Office: Q140b; Phone; +46 (0)46 222 7689
E-mail: asmita.jash [at] ftf.lth.se;
Personal page of Asmita Jash

Athanasios Tsintzis
Research: Theoretical study of topological states in nanowires
Office: C265; Phone: +46 (0)46 222 6267
Email: athanasios.tsintzis [at] ftf.lth.se 
Personal page of Athanasios Tsintzis

David Alcer
Research: Nanowire solar cells
Office: Q141; Phone: +46 (0)46 222 4368
E-mail: david.alcer [at] ftf.lth.se; 
Personal page of David Alcer 

Elham Akbari
Research: Morphology and virulence among bacteria
Office: B107, Phone: +46 (0)46 222 4495
E-mail: elham.akbari [at] ftf.lth.se;
Personal page of Elham Akbari

Enrico Turato
Research: Diagnosis of parasitic diseases in horses using microfluidics and cell-phone based microscopy
Office: C365B, Phone: +46 (0)46 222 7903
E-mail: enrico.turato [at] ftf.lth.se;
Personal page of Enrico Turato

Esra Yilmaz
Research: Multiscale biomechanics from molecules to cells in cancer
Office: C262; Phone: +46 (0)46 222 7686
E-mail: esra.yilmaz [at] ftf.lth.se;
Personal page of Esra Yilmaz

Frida Ekstrand
Research: Probing cells using nanostraws for Diabetes research
Office: C265; Phone: +46 (0)46 222 6267
E-mail: frida.ekstrand [at] ftf.lth.se;
Personal page of Frida Ekstrand

Harald Havir
Research: Fast charge readout for nanothermodynamics and quantum devices
Office: B107; Phone: +46 (0)46 222 44 95
E-mail: harald.havir [at] ftf.lth.se;
Personal page of Harald Havir

Hossein Jeddi
Research: Novel voltage-tunable nanowire-based infrared photodetectors embedded in photonic crystals
Office: Q140A; Phone: +46 (0)46 222 0929
E-mail: hossein.jeddi [at] ftf.lth.se;
Personal page of Hossein Jeddi

Ivan Unksov
Research: Molecular motors combined with nanotechnology.
Office: C366; Phone: +46 (0)46 222 3850
E-mail: ivan.unksov [at] ftf.lth.se;
Personal page of Ivan Unksov

Julia Valderas Gutiérrez
Research: Development of biosensors based on nanostructured surfaces
Office: H352A, Phone: +46 (0)46 222 7585
E-mail: julia.valderas_gutierrez [at] ftf.lth.se;
Personal page of Julia Valderas Gutiérrez

Kristi Adham
Research: Charge carrier diffusion induced nanowire light emitting diodes
Office: Q140B; Phone: +46 (0)46 222 7689
E-mail: kristi.adham [at] ftf.lth.se;
Personal Page of Kristi Adham

Linnéa Jönsson
Research: Generation and characterization of compound nanoparticles
Office: C364A; Phone: +46 (0)46 222 7756
E-mail: linnea.jönsson [at] ftf.lth.se;
Personal page of Linnéa Jönsson

Marie Bermeo Vargas
Research: Generation and characterization of catalytic nanoparticles
Office: Q140B, Phone: +46 (0)46 222 7689
E-mail: marie.bermeo_vargas [at] ftf.lth.s;
Personal page of Marie Bermeo Vargas

Mariia Shcherbakova
Research: 
Office: C364A; Phone; +46 (0)46 222 7756
E-mail: mariia.shcherbakova [at] ftf.lth.se;
Personal page of Mariia Shcherbakova

Markus Aspegren
Research: Spin interactions in coupled quantum dots
Office: C365D; Phone: +46 (0)46 222 7692
E-mail: markus.aspegren [at] ftf.lth.se;
Personal page of Markus Aspegren

Markus Snellman
Research: Developing ALD process for creating core-shell nanoparticles.
Office: C366 ; Phone: +46 (0)46 222 3850
E-mail: markus.snellman [at] ftf.lth.se;
Personal page of Markus Snellman

Matteo Tirrito
Research: III-V nanowire/perovskite tandem junction solar cell development
Office: C265, Phone; +46 (0)46 222 6267
E-mail: matteo.tirrito [at] ftf.lth.se;
Personal page of Matteo Tirrito

Maximilian Nitsch
Research: Theory of superconductor-semiconductor hybrid devices
Office: C264B, Phone: +46 (0) 46 222 7759
E-mail: maximilian.nitsch [at] ftf.lth.se;
Personal page of Maximilian Nitsch

Patrik Nilsson
Research: Characterization of artificial molecular motors
Office: Q140B; Phone: +46 (0)46 222 7689
E-mail: patrik.nilsson [at] ftf.lth.se;
Personal page of Patrik Nilsson

Pau Ternero
Research: Generation and characterization of magnetic nanoparticles
Office: C377A; Phone: +46 (0)46 222 7394
E-mail: pau.ternero [at] ftf.lth.se;
Personal page of Pau Ternero

Pradheebha Surendiran
Research: Parallel network based biocomputation using molecular motors.
Office: C264b; Phone: +46 (0)46 222 7759
E-mail: pradheebha.surendiran [at] ftf.lth.se; 
Personal Page of Pradheebha Surendiran

Rubina Davtyan
Research: Biosensing and single-molecule techniques
Office: C363; Phone: +46 (0)46 222 3171
E-mail: rubina.davtyan [at] ftf.lth.se;
Personal page of Rubina Davtyan

Sara Franzén
Research:  Pedestaled metal nanoparticles "for catalysis"
Office: C365B; Phone: +46 (0)46 222 7903
E-mail: sara.franzen [at] ftf.lth.se;
Personal page of Sara Franzén

Simon Wozny
Research: Theoretical studies on nanoscale thermodynamics and quantum transport
Office: Q139; Phone: +46 (0)46 222 3917
E-mail: simon.wozny [at] ftf.lth.se;
Personal page of Simon Wozny

Therese Johansson
Research: Manipulating cells using electric fields and nanostructures
Office: C262; Phone: +46 (0)46 222 7686
E-mail: therese.johansson [at] ftf.lth.se;
Personal page of Therese Johansson

Viktor Rindert
Research: Development of Terahertz Electron Paramagnetic Resonance Ellipsometry for studying defects in low-symmetry ultra wide band gap semiconductors.
Office: H352B; Phone: +46 (0)xxx
E-mail: viktor.rindert [at] ftf.lth.se;
Personal page of Viktor Rindert

William Samuelson
Project titel: Theory of superconductor-semiconductor hybrid structures
Office: B107 Phone:+46 (0)46 222 3850
E-mail: william.samuelson [at] ftf.lth.se 

Personal page of William Samuelson

Yue Zhao
Research: Energy saving LEDs based on branched nanowires
Office: Q141, Phone; +46 (0)46 222 4368
E-mail: yue.zhao [at] ftf.lth.se;
Personal page of Yue Zhao