Colloidal Systems Chemistry

Researchers

3

2

Accepted patents

2 Accepted patentsobtained during the
last 10 years

Indexed publications

30 Indexed publicationsobtained during the
last 10 years

Internal collaborations

  • 13 Co-publications Nº of co-publications
    in last 10 years
  • 1 Co-supervised postdoc Nº of co-supervised post-docs in the last 5 years
  • 1 Co-supervised thesis Nº of co-supervised
    thesis in last 5 years
  • 4 Joint project underway Nº of currently
    ongoing projects
  • Joint projects in the past Nº of projects in last 5 years, that already finished
  • Same nat or internal network Nº of collaboration networks in last 10 years

Description

Colloidal Systems Chemistry group, led by Marek Grzelczak, started research activities at Donostia International Physics Center from September 2017 to February 2020, currently, we run our research activities in Centro de Fisica de Materiales.

We are an experimental group interested in studying materials and systems processes using colloids and nanoparticles as building blocks.

The synthesis and dynamic self-assembly of metallic nanocrystals are the primary research activities that couple directly to the application-driven work, aiming at both the bottom-up fabrication of photo-active systems in the context of artificial photosynthesis and colorimetric sensing for liquid biopsy and detection of infectious diseases.

Main researcher

Marek Grzelczak

Other researchers

Contact information

Centro de Física de Materiales

Manuel Lardizabal 5
20018 Donostia - San Sebastian
Gipuzkoa

+34 943 018971

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Send an email

Research center

Materials Physics Center

Colloidal Systems Chemistry Indicate Solutions Bihur Crystal Wroclaw University of Science and Technology Ruđer Bošković Institute International GI GI UBDX GI PV
Nonstructural collaboration / informal Joint project underway Joint projects in the past Intention to begin a joint project Co-supervised thesis Co-publications Co-supervised postdoc Same nat or internal network Colloidal Systems Chemistry Chiral and topological photonics Moving Lightand Electrons Nanomaterials andSpectroscopy Group Nanooptics BionanoplasmonicsLaboratory Theory of NanophotonicsGroup
Portable and immediate chemical and biological sensing Health diagnosis, therapies and surgeries Solar Energy conversion Clean growth and clean environment Ageing society
Solar Energy Conversion Personalized medicine: prevention, diagnosis, treatment and monitoring Safe and quality food: new detection and conservation technologies Energy Health Biosciences Food
Nanomaterials Photophysics and photochemistry Artificial materials and metamaterials Biosensors Nanophotonics Material processing & synthesis Plasmonics
  • Synthesis of plasmonic nanoparticles
  • Self-assembly of nanoparticles
  • Photocatalysis using plasmonic nanoparticles
  • Colorimetric biosensing using plasmonic nanoparticles
  • Nanophotonics
  • Photophysics and photochemistry
  • Plasmonics
  • Nanomaterials
  • Photonic materials
  • Nanomaterials
  • Plasmonics
  • New optical materials
  • Light harvesting
  • Material processing & synthesis
  • Nanomaterials
  • Artificial materials and metamaterials
  • Light harvesting
  • Biophotonics
  • Photophysicsand photochemistry
  • Biosensors
  • Cary 3500 Multicell, MayaPro2000
  • Varian Cary Eclipse
  • Thermocycler
  • Solar Simulator (Pico)
  • Oxygen sensor (Ocean Optics)
  • CFM
  • CIC nanoGUNE
  • UPV/EHU
  • CIC biomGUNE
  • Wroclaw University of Technology, Poland
  • Instituto de Agrobiotecnología, CSIC
  • Energy
  • Solar Energy Conversion
  • Health Biosciences
  • Biosensors
  • Personalized medicine: prevention, diagnosis, treatment and monitoring
  • Food
  • Safe and quality food: new detection and conservation technologies
  • Ageing society
  • Portable and immediate chemical and biological sensing
  • Health diagnosis, therapies and surgeries
  • Clean growth and clean environment
  • Solar Energy conversion
  • Agrifood and Food safety
  • Monitoring of soil, fields, livestock, machinery