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The main research areas of the group are

• the aerosol synthesis and mechanistic studies of formation of carbon nanotubes and inorganic nanoparticles
• the applications of carbon nanotubes in transparent and flexible electronics
• pharmaceutical nanoparticles and nanostructured microparticles as drug delivery systems
• high resolution electron microscopy

Aalto Game Changer video of the NMG group (see also https://gamechangers.aalto.fi/en/).

Research

The NanoMaterials group is active in several research fields:

• Aerosol-based synthesis of nanomaterials: single-walled and multiwalled carbon nanotubes (CNTs), metal and metal oxide catalyst nanoparticles
• Carbon nanotube based thin film electronics: transparent conducting electrodes (TCEs), thin film transistors (TFTs), sensors
• Materials for electrochemical energy applications
• Pharmaceutical nanomaterials: nanostructured microparticles and nanoparticles for  drug delivery and controlled release
• Electron microscopy: atomic resolution imaging of nanomaterials, EDX, chirality measurements of CNTs
• Aerosol measurements and techniques: Differential Mobility Analysis (DMAs), nanoaerosol deposition by thermophoretic and electrostatic precipitators
• Computational Fluid Dynamics (CFD)

Facilities

The Nanomaterials group has a wide range of experimental facilities for the synthesis of carbon nanotubes and for their characterization as well as for developing pharmaceutical inhalation products.

Aerosol reactors for drug delivery systems

The Nanomaterials Group has developed the Aerosol Flow Reactor Method to formulate nano- and microparticles for pharmaceutical applications. The aerosol method enables formulating materials with different solubilities and thermal properties as novel platforms for controlled drug delivery, non-viral vectors for gene therapy and carrier-free drug powders for inhalation therapy.

Current focus areas

• Next generation pulmonary delivery of therapeutic peptides
• Efficient pulmonary delivery of poorly water-soluble drugs
• Coating and encapsulation of combination drugs for pulmonary delivery

Aerosol flow reactor

Solutions where materials are dissolved are dispersed into droplets which are carried to the aerosol reactor with a gas. The particles are dried in a laminar flow followed by the coating process. Dry particles are collected by a cyclone or impactor. The general features of the aerosol reactor are listed below.

• Jet atomizer: droplet size 300 nm, production 104-105 1/cm3
• Ultrasonic nebulizer: droplet size 3-4 µm, production 105-106 1/cm3
• Temperature 20-300 ºC, flow rate 1-20 l/min
• Solvent options are many, however, no solvent mixtures are recommended

Carbon nanotube reactors

The Nanomaterials Group operates five carbon nanotube reactors based on the aerosol-based synthesis technique.