Have you considered doing your Master project at Nanotech?

Below you can find suggestions for Master projects - if your dream project is not on the list you can always contact us at Nanotech and discuss your possibilities.

Catalog of master projects

2. september 2014


Light-based forces on particles in metallic V-grooves

Cameron Smith (NSE, Optofluidics)Image describing the project


Magnetic detection of DNA mutations

Mikkel F. Hansen (LabChip, Magnetic Systems) & Martin Dufva (BIOMICS-Fluidic Array Systems and Technology group)Image describing the project


Investigating aptamer bonds with magnetoresistive sensors

Mikkel F. Hansen (LabChip, Magnetic Systems) & Anders Dahl Henriksen (LabChip, Magnetic Systems)Image describing the project


Detection of mercury pollution using a magnetoresistive sensor

Mikkel F. Hansen (LabChip, Magnetic Systems) & Giovanni Rizzi (LabChip, Magnetic Systems)Image describing the project


Plasmonic sensors based on ultrasmall silver nanoparticles

Klaus B. Mogensen (Fluidic Array Systems and Technology)Image describing the project


Fluorescing silver quantum clusters for chemical analysis

Klaus B. Mogensen (Fluidic Array Systems and Technology)Image describing the project


Screening of sensor technologies for “in vivo” diagnosis of colorectal cancer

Winnie Svendsen (BIOMICS, Nabis)Image describing the project


Vital Sign Monitoring

Erik V Thomsen (MEMS, AppliedSensors) & Shadi Chreiteh (MEMS, AppliedSensors)Image describing the project


All-around characterization of thin-film solar cell materials

Andrea Crovetto (Silicon Microtechnology)Image describing the project


Numerical simulation of polycrystalline thin-film solar cells

Andrea Crovetto (Silicon Microtechnology)Image describing the project


Drug in a box: Fabrication of next generation tablets and capsules

Ritika Singh (NSE, Nanoprobes)Image describing the project


Inertial focusing and collecting of small particles (virus size) from water

Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics)Image describing the project


Electric manipulation (Dielectrophoresis) of nano/virus particles

Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics)Image describing the project


Microfluidic sorting and characterization of extracellular vesicles

Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics)Image describing the project


Interfacing silicon nanowire biosensors with a mobile-phone accessory using undersampling lock-in correlation.

François Patou (BIOMICS, Nabis)Image describing the project


Modeling, simulation and implementation of a lock-in correlation acquisition system for mobile-phone medical diagnostics applications

François Patou (BIOMICS, Nabis)Image describing the project


Nanofabrication of next generation X-Ray Optics

Ole Hansen (Silicon Microtechnology)Image describing the project


Projects in superhydrophobic surface structures

Rafael Taboryski (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Projects in Lab-On-a-Chip systems

Rafael Taboryski (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


CMUTs: Capacitive Micromachined Ultrasonic Transducers

Erik V Thomsen (MEMS, AppliedSensors) & Thomas Lehrmann Christiansen (MEMS, AppliedSensors)Image describing the project


Advanced Analytical and Numerical Techniques for MEMS (Micro Electro Mechanical Systems)

Erik V Thomsen (MEMS, AppliedSensors)Image describing the project


Local pinning of water on structured polymer surfaces

Nis Korsgaard Andersen (POLYMIC, Polymer Micro & Nano Engineering) & Rafael Taboryski (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Development and optimization of a polymer microfluidic system for cell-based fluorescent assays.

Pedro Nunes (Fluidic Array Systems and Technology)Image describing the project


Development of a blood plasma separation device

Dorota Kwasny (BIOMICS, Nabis)Image describing the project


Development of an all polymer membrane based sensor system

Tanya Bakmand (BIOMICS, Nabis)Image describing the project


Particle Image Velocimetry in a microfluidic device

Rodolphe Marie (NSE, Optofluidics)Image describing the project


Thermal hot spots in an all-polymer nanofluidic device

Rodolphe Marie (NSE, Optofluidics)Image describing the project


Single molecule detection for next-generation diagnostic applications

Andreas H. Kunding (Fluidic Array Systems and Technology)Image describing the project


Fabrication and Characterization of Silicon Nanowire Bio-FET sensor

Azeem Zulfiqar (BIOMICS, Nabis)Image describing the project


Design and fabrication of a microfluidic system for the upconcentration of viruses in water

Maria Dimaki (BIOMICS, Nabis) & Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics)Image describing the project


Diagnostic breath analyzer based on nanomechanical IR spectrometer

Silvan Schmid (NSE, Nanoprobes)Image describing the project


Analyzing biomedical nanoparticles with nanomechanical mass spectrometer

Silvan Schmid (NSE, Nanoprobes)Image describing the project


Optical detection of electric signals via a strongly coupled nano-electromechanical system

Silvan Schmid (NSE, Nanoprobes)Image describing the project


Fabrication of thin “black silicon” solar cells

Rasmus Schmidt Davidsen (Silicon Microtechnology)Image describing the project


Exploring Microdroplet technology

Thomas Glasdam Jensen (LabChip, ChemLabChip)Image describing the project


Dynamics and formation of perforated graphene

Tue Gunst (Theory, Theoretical Nanoelectronics) & Mads Brandbyge (Theory, Theoretical Nanoelectronics)Image describing the project


What's the best dye for distributed feedback dye laser sensors?

Christoph Vannahme (NSE, Optofluidics) & Anders Kristensen (NSE, Optofluidics)Image describing the project


How to print a laser

Christoph Vannahme (NSE, Optofluidics) & Anders Kristensen (NSE, Optofluidics)Image describing the project


Charge stability and decay mechanism for inorganic electrets

Fei Wang (Silicon Microtechnology)Image describing the project


Developing 3D Conducting pyrolysed carbon scaffold for tissue engineering

Soumyaranjan Mohanty (LapChip, BioLapChip) & Jenny Emnéus (BIOMICS, Bioanalytics)Image describing the project


Surface-normal emission from PhC cavities

Aliaksandra Ivinskaya (POLYMIC-Surface_Engineering )Image describing the project


Realizable metamaterials on basis of ensembles of metal nanoparticles

Aliaksandra Ivinskaya (POLYMIC-Surface_Engineering )Image describing the project


Hybrid plasmonic-photonic crystal structures

Aliaksandra Ivinskaya (POLYMIC-Surface_Engineering )Image describing the project


Etch rate modification of Silicon dioxide

Ole Hansen (Silicon Microtechnology)Image describing the project


Nanostructures for tip-enhanced Raman spectroscopy

Alexey Savenko (NSE, Nanointegration) & Peter Bøggild (NSE, Nanointegration)Image describing the project


Nanocomposites

Søren Vang Fischer (POLYMIC-Surface_Engineering )Image describing the project


Developing 3D printed microstructures for tissue engineering

Soumyaranjan Mohanty (LapChip, BioLapChip) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


High Transmittance Sight-Glasses for an Improved NOx-Detection

René Bergmann (POLYMIC-Surface_Engineering )Image describing the project


Functionalization of Micropatterned Surfaces

René Bergmann (POLYMIC-Surface_Engineering )Image describing the project


Characterization of Magnetic Tunnel Junctions

Daniel Kjær (Silicon Microtechnology)Image describing the project


Microcontainers with solid polymer drug matrix for oral drug delivery

Stephan Keller (NSE, Nanoprobes)Image describing the project


Microfluidic device for handling large volume water samples

Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics) & Solène Cherré (Polymer Microsystems for Medical Diagnostics)Image describing the project


Polymer electrodes for electrical manipulation of particles

Noemi Rozlosnik (Polymer Microsystems for Medical Diagnostics) & Solène Cherré (Polymer Microsystems for Medical Diagnostics)Image describing the project


Biosensing platform based on magnetic nanoparticles and Blu-Ray pickup head

Mikkel F. Hansen (LabChip, Magnetic Systems)Image describing the project


On-chip immunoassay

Mikkel F. Hansen (LabChip, Magnetic Systems) & Kasper Kistrup (LabChip, Magnetic Systems)Image describing the project


Sample purification using magnetic bead filter

Mikkel F. Hansen (LabChip, Magnetic Systems) & Kasper Kistrup (LabChip, Magnetic Systems)Image describing the project


Magnetic beads for sample extraction in two-phase microfluidic systems

Mikkel F. Hansen (LabChip, Magnetic Systems) & Kasper Kistrup (LabChip, Magnetic Systems)Image describing the project


3D Printed Microfluidic Reactor Designed Using Topology Optimisation

Carl Esben Poulsen (BIOMICS, Bioanalytics) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


Optimization on a polymer microfluidic system for rapid pathogen detection

Minqiang Bu (BIOMICS, Bioanalytics) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


Real-time DNA microarray for monitoring DNA hybridization with high sensitivity and specificity

Sun Yi (BIOMICS, Bioanalytics) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


Droplet based microfluidics

Anders Wolff (BIOMICS, Bioanalytics) & Carl Esben Poulsen (BIOMICS, Bioanalytics)Image describing the project


Charge Distribution and Stability in Electret Materials

Anders Thyssen (MEMS, AppliedSensors) & Erik V Thomsen (MEMS, AppliedSensors)Image describing the project


Design and Fabrication of Continuous-flow PCR Chip for Detection of Campylobacter

Carl Esben Poulsen (BIOMICS, Bioanalytics) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


Real-time monitoring of cellular behavior by electrochemical impedance spectroscopy

Claudia Caviglia (BIOMICS, Bioanalytics)Image describing the project


Cell death detection by electrochemical impedance spectroscopy

Claudia Caviglia (BIOMICS, Bioanalytics)Image describing the project


Chip designs for droplet formation: numerical analysis

Carl Esben Poulsen (BIOMICS, Bioanalytics) & Anders Wolff (BIOMICS, Bioanalytics)Image describing the project


Develop further a microfluidic Proof-of-Concept proto-type for commercialization

Fridolin Okkels (Theoretical Microsystems Optimization group)Image describing the project


Photothermal Spectroscopy using Resonant Strings

Shoko Yamada (NSE, Nanoprobes) & Silvan Schmid (NSE, Nanoprobes)Image describing the project


Advanced etching of Topas© for Point-of-care devices

Kristian Hagsted Rasmussen (Silicon Microtechnology) & Nikolaj Ormstrup Christiansen (Polymer Microsystems for Medical Diagnostics)Image describing the project


Patterning of sapphire substrates for low stress GaN-based LEDs.

Kristian Hagsted Rasmussen (Silicon Microtechnology) & Ole Hansen (Silicon Microtechnology)Image describing the project


Projection lithography system for photochemical modification of polymer surfaces

Morten Bo Lindholm Mikkelsen (Polymer Microsystems for Cell Processing group) & Esben Kjær Unmack Larsen (Polymer Microsystems for Cell Processing group)Image describing the project


MEMS/Nano Optical Sensor for Wind Turbines.

Kasper Reck (MEMS, AppliedSensors) & Erik V Thomsen (MEMS, AppliedSensors)Image describing the project


Gyroid Nanoporous Polymer Templates for Dye Sensitized Solar Cells

Sokol Ndoni (Self-organized Nanoporous Materials group)Image describing the project


Fuel cell membranes based on block copolymers

Sokol Ndoni (Self-organized Nanoporous Materials group)Image describing the project


Atomic waterwheels: Molecular dynamics with electronic current

Mads Brandbyge (Theory, Theoretical Nanoelectronics)Image describing the project


Density functional simulations and transport studies of molecular contacts

Mads Brandbyge (Theory, Theoretical Nanoelectronics)Image describing the project


Graphene electrodes for molecular electronics: DFT calculations

Mads Brandbyge (Theory, Theoretical Nanoelectronics)Image describing the project


New Nanocellulose Based Nanocomposite Materials

Mogens Havsteen Jakobsen (POLYMIC-Surface_Engineering )Image describing the project


Metallic Nanoparticle Based 3D Photonic Devices

Mogens Havsteen Jakobsen (POLYMIC-Surface_Engineering )Image describing the project


Filling of vesicles with RNA using electroporation

Peter Friis Østergaard (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Detection of pesticides in water and food products

Peter Friis Østergaard (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Nanochannel flow cytometry

Peter Friis Østergaard (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Flexible photodetector arrays

Erik V Thomsen (MEMS, AppliedSensors) & Søren Dahl Petersen (MEMS, AppliedSensors)Image describing the project


Projection lithography system for photochemical modification of polymer surfaces

Morten Bo Mikkelsen (NSE, Optofluidics) & Esben Kjær Unmack Larsen (Polymer Microsystems for Cell Processing group)Image describing the project


Mucoadhesion of drug delivery devices in artificial intestine

Stephan Keller (NSE, Nanoprobes)Image describing the project


CHARACTERIZATION OF DRUG LOADED POLYMER FILMS BY MICRO-RESONATORS

Sanjukta Bose (Amphiphilic Polymer in Biological Sensing) & Stephan Keller (NSE, Nanoprobes)Image describing the project


Structural Colors in Plastics

Anders Kristensen (NSE, Optofluidics)Image describing the project


A device for disentangling and fragmenting DNA

Rodolphe Marie (NSE, Optofluidics)Image describing the project


Amyloid nanofibrils from waste proteins for the development of biosensors

Jaime Castillo (BIOMICS, Nabis)Image describing the project


Exploring the use of amyloid nanofibrils from waste proteins in clean-room fabrication processes

Jaime Castillo (BIOMICS, Nabis)Image describing the project


Microfabricated capsules for oral drug delivery

Paolo Marizza (NSE, Nanoprobes) & Stephan Keller (NSE, Nanoprobes)Image describing the project


Enzymatic etching of biopolymers for fabrication of drug delivery devices

Stephan Keller (NSE, Nanoprobes)Image describing the project


Inorganic electrets for energy harvesting devices

Fei Wang (Silicon Microtechnology) & Ole Hansen (Silicon Microtechnology)Image describing the project


surface modification for implantable fuel cells

Letizia Amato (BIOMICS, Bioanalytics)Image describing the project


micro- and nanoelectrodes in carbon for implantable fuel cells

Letizia Amato (BIOMICS, Bioanalytics)Image describing the project


Evaluation of linear coupling in NEMS

Luis Guillermo Villanueva (NSE, Nanoprobes)Image describing the project


Observation of Parametric noise squeezing in NEMS

Luis Guillermo Villanueva (NSE, Nanoprobes)Image describing the project


Piezoelectric NEMS particle sensor

Luis Guillermo Villanueva (NSE, Nanoprobes) & Silvan Schmid (NSE, Nanoprobes)Image describing the project


Nonlinear dynamics on Coupled NEMS

Luis Guillermo Villanueva (NSE, Nanoprobes)Image describing the project


Injection molding of nanostructures for cell adhesion studies

Thor Christian Hobæk (Polymer Microsystems for Cell Processing group) & Niels B. Larsen (Polymer Microsystems for Cell Processing group)Image describing the project


Fabrication of microscopic inverse opal hydrogel scaffolds

Niels B. Larsen (Polymer Microsystems for Cell Processing group)Image describing the project


Super-resolution microscopy of single bio-molecules: Theory and simulations with applications to molecular motors

Henrik Flyvbjerg (Theory, Stochastic Systems and Signals)Image describing the project


Nanomechanical resonators with pyrolysed graphene-like transduction elements

Silvan Schmid (NSE, Nanoprobes)Image describing the project


Fuel cells for the human body

Letizia Amato (BIOMICS, Bioanalytics)Image describing the project


Injection moulded chips with integrated fluid control by the use of capillary stops and super hydrophobic areas

Peter Friis Østergaard (POLYMIC, Polymer Micro & Nano Engineering) & Rafael Taboryski (POLYMIC, Polymer Micro & Nano Engineering)Image describing the project


Precise FIB fabrication of exchangeable AFM tips

Alexey Savenko (NSE, Nanointegration) & Peter Bøggild (NSE, Nanointegration)Image describing the project


Drug-in-a-box – Fabrication and characterization of antenna fitted micro containers for targeted drug delivery

Johan Nagstrup (NSE, Nanoprobes)Image describing the project


Micro-containers for oral drug release

Stephan Keller (NSE, Nanoprobes)Image describing the project

Number of records: 108
02-09-2014