1.

Synthesis of hybrid FePt/SiO2/Au nanoparticles : mini simpozij "Bio-responsive magneto-optically coupled nanomaterial-based systems for innovative skin cancer treatments", 6th November 2015, Ljubljana.

Organization of a mini symposium, with extended participation, i.e. members of the project team, invited experts and young researchers. In the form of short lectures, the Symposium included presentations of the project results. At the same time, the Symposium also featured lectures by invited experts in the field of nanomaterials synthesis and cell biology, which were not directly related to the project.

B.01 Organiser of a scientific meeting

COBISS.SI-ID: 32537561

2.

Hybrid FePt/Au nanoparticles with a combined magneto-photothermal effect

Excellent shot-gun presentation award at the 2nd International Symposium on NPs-Nanomaterials and Applications (ISN2A-2016), Caparica, Portugal, wit a title “Multimodal hybrid FePt/SiO2/Au NPs for nanomedical applications: new synthesis approach for improved magnetic and optical properties”

E.02 International awards

COBISS.SI-ID: 27464999

3.

Synthesis of hybrid nanoparticles with combined magneto-photothermal effect for medical applications

Successful defence of the doctoral dissertation by dr. Nina Kostevšek under the supervision of doc. dr. Kristina Žužek Rožman, both members of the project consortium.

D.09 Tutoring for postgraduate students

COBISS.SI-ID: 287036160

4.

Dynamic studies of nucleation and growh phenomena of nanomaterials

Within the frames of the invited talk we introduced the methods of dynamic transmission electron microscopy in liquids, which allows us to perform in-situ investigations for better understanding of the nucleation processes in nanomaterials. As an example, which is related to this project, we presented the results of the study of the nucleation of Au on SiO2 spherical particles.

B.04 Guest lecture

COBISS.SI-ID: 31129895

5.

Procedure for the establishment of a biomimetic bladder cancer in vitro model and the use of this model, Patent No. SI 25156 A, Date of Publication 29. 09. 2017. Ljubljana: The Slovenian Intellectual Property Office

The technical problem successfully solved by the present invention is the procedure for establishing a biomimetic in vitro model of the urinary bladder cancer, which allows the study of the attachment of cancer urothelial cells to the surface of partially differentiated normal urothelium and their migration into urothelium in live as well as analysis of cell structures after chemical or physical fixation. In addition, the developed model is also suitable for preclinical testing of new diagnostic approaches and drugs developed for the treatment of bladder cancer.

F.33 Slovenian patent

COBISS.SI-ID: 32541401