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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373

Czech Post certified digital mail code: sp4j9ch

Copyright: UCT Prague 2017
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Welcome to the website Advanced Functional Nanorobots. This project is co-financed by the EU funds.

NEWS: We accept new  team members with the Marie Curie fellowship
We also help candidates with the preparation of the project and administration.

 

 

NEWS: Job offer

The successful candidate will become a post-doctoral member of prestigious international research team in project Advanced Functional Nanorobots. The candidate will work as researcher at the Department of Inorganic Chemistry, University of Chemistry and Technology in Prague, Czech Republic. 

The candidate must hold Ph.D. title in Chemistry, Physics or related discipline with strong focus on nanoscience or colloidal chemistry.  The candidate should have some experience in electrochemistry, nanotechnology and materials research. Proven track record is essential.

Good time management skills and ability to prioritize are expected, together with the ability to interact with staff and facility users at all levels and to work as part of a multi-disciplinary team. Good oral and written communication skills in English are essential.

To submit your application, please send your full curriculum vitae and list of publications to nanorobots.lab@gmail.com and Zdenek.Sofer@vscht.cz.

More information on nanorobots.cz

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The objective of the Advanced Functional Nanorobots project is to create an excellent team which will develop a new category of nanotechnologies: dynamic nanosystems. All nanotechnologies developed so far were essentially static. Here the excellent team should pose a new paradigm in nanotechnologies – autonomous nano-devices gathering energy from their surrounding, being navigated, able to swarm round and selectively search for specific cells or chemical species. These mobile, self-moving and self-organizing nanorobots will carry chemical functional groups to be employed in nanomedicinal applications such as targeted cancer treatment, drug delivery within the organisms as well as active de-contamination during environmental accidents. A crucial aspect of the project is signing up a key foreign researcher (KFR) from Singapore to the Czech Republic, engagement of other excellent scientists as well as the education of young researchers.

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Address of UCT Prague:

UCT Prague
Technicka 5
166 28 Prague 6 – Dejvice, Czech Republic

E-mail contacts:

nanorobots.lab@gmail.com

martin.pumera@vscht.cz

Zdenek.Sofer@vscht.cz

 

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This project is co-financed by the EU funds.

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Following key instrumentation was purchased:

  • The set of electrochemical analyzers
  • Motion analyzer of nanoparticles
  • Gas chromatography–mass spectrometry (GC-MS)
  • Microscope with a high-speed camera
  • Electron microscope with extreme resolution (HR-SEM)
  • Electrochemical atomic force microscope (EC-AFM)
  • Laser lithography
  • Complex UHV analytical system 

 

Following key instrumentation will be purchased:

  • Set of microscopes and deposition devices

 

More information on nanorobots.cz

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Papers:

[1] A. Sajedi-Moghaddam, C.C. Mayorga-Martinez, Z. Sofer, D. Bouša, E. Saievar-Iranizad, M. Pumera, Black Phosphorus Nanoflakes/Polyaniline Hybrid Material for High-Performance Pseudocapacitors, J. Phys. Chem. C, 121 (2017) 20532-20538.

[2] J. Luxa, P. Vosecky, V. Mazánek, D. Sedmidubsky, M. Pumera, P. Lazar, Z. Sofer, Layered Transition-Metal Ditellurides in Electrocatalytic Applications Contrasting Properties, ACS Catalysis, 7 (2017) 5706-5716.

[3] L. Krejcova, L. Richtera, D. Hynek, J. Labuda, V. Adam, Current trends in electrochemical sensing and biosensing of DNA methylation, Biosens. Bioelectron., 97 (2017) 384-399.

[4] M. Pumera, Graphene/Group 5 Transition Metal Dichalcogenides Composites for Electrochemical Applications, Chemistry-A European Journal, (2017).

[5] M. Fojtů, X. Chia, Z. Sofer, M. Masařík, M. Pumera, Black Phosphorus Nanoparticles Potentiate the Anticancer Effect of Oxaliplatin in Ovarian Cancer Cell Line, Adv. Funct. Mater., 27 (2017) 1701955.

[6] T. Maric, J.G.S. Moo, B. Khezri, Z. Sofer, M. Pumera, Black-phosphorus-enhanced bubble-propelled autonomous catalytic microjets, Applied Materials Today, 9 (2017) 289-291.

[7] N.M. Latiff, C.C. Mayorga-Martinez, L. Wang, Z. Sofer, A.C. Fisher, M. Pumera, Microwave irradiated N- and B,Cl-doped graphene: Oxidation method has strong influence on capacitive behavior, Applied Materials Today, 9 (2017) 204-211.

[8] D. Bouša, Š. Huber, D. Sedmidubský, M. Pumera, Z. Sofer, Planar Polyolefin Nanostripes: Perhydrogenated Graphene, Chemistry – A European Journal, 23 (2017) 11961-11968.

[9] O. Jankovský, A. Jiříčková, J. Luxa, D. Sedmidubský, M. Pumera, Z. Sofer, Fast Synthesis of Highly Oxidized Graphene Oxide, ChemistrySelect, 2 (2017) 9000-9006.

[10] C.C. Mayorga-Martinez, Z. Sofer, D. Sedmidubský, J. Luxa, B. Kherzi, M. Pumera, Metallic impurities in black phosphorus nanoflakes prepared by different synthetic routes, Nanoscale, (2018).

[11] R.J. Toh, Z. Sofer, J. Luxa, D. Sedmidubský, M. Pumera, 3R phase of MoS 2 and WS 2 outperforms the corresponding 2H phase for hydrogen evolution, Chem. Commun., 53 (2017) 3054-3057.

[12] Y.T. Yew, A.H. Loo, Z. Sofer, K. Klímová, M. Pumera, Coke-derived graphene quantum dots as fluorescence nanoquencher in DNA detection, Appl. Mater. Today, 7 (2017) 138-143.

[13] N.M. Latiff, C.C. Mayorga-Martinez, L. Wang, Z. Sofer, A.C. Fisher, M. Pumera, Microwave irradiated N-and B, Cl-doped graphene: Oxidation method has strong influence on capacitive behavior, Appl. Mater. Today, 9 (2017) 204-211.

[14] N. Rohaizad, C.C. Mayorga-Martinez, Z.k. Sofer, M. Pumera, 1T-Phase Transition Metal Dichalcogenides (MoS2, MoSe2, WS2, and WSe2) with Fast Heterogeneous Electron Transfer: Application on Second-Generation Enzyme-Based Biosensor, ACS Appl. Mater. Interfaces, 9 (2017) 40697-40706.

[15] R. Gusmão, Z.k. Sofer, D. Bouša, M. Pumera, Black Phosphorus Synthesis Path Strongly Influences Its Delamination, Chemical Properties and Electrochemical Performance, ACS Applied Energy Materials, 1 (2018) 503-509.

[16] S. Presolski, L. Wang, A.H. Loo, A. Ambrosi, P. Lazar, V.c. Ranc, M. Otyepka, R. Zboril, O.e. Tomanec, J. Ugolotti, Functional Nanosheet Synthons by Covalent Modification of Transition-Metal Dichalcogenides, Chem. Mater., 29 (2017) 2066-2073.

[17] N.F. Rosli, N.M. Latiff, Z. Sofer, A.C. Fisher, M. Pumera, In vitro cytotoxicity of covalently protected layered molybdenum disulfide, Appl. Mater. Today, 11 (2018) 200-206.

[18] M. Pumera, Graphene/Group 5 Transition Metal Dichalcogenides Composites for Electrochemical Applications, Chem. Eur. J., (2017).

[19] O. Jankovský, M. Lojka, J. Luxa, D. Sedmidubský, M. Pumera, Z. Sofer, Introduction of sulfur to graphene oxide by Friedel-Crafts reaction, FlatChem, 6 (2017) 28-36.

[20] S. Kuckova, E. Hamidi-Asl, Z. Sofer, P. Marvan, K. De Wael, J. Sanyova, K. Janssens, A simplified protocol for the usage of new immuno-SERS probes for the detection of casein, collagens and ovalbumin in the cross-sections of artworks, Analytical Methods, 10 (2018) 1054-1062.

[21] V. Mazánek, S. Matějková, D. Sedmidubský, M. Pumera, Z. Sofer, One‐Step Synthesis of B/N Co‐doped Graphene as Highly Efficient Electrocatalyst for the Oxygen Reduction Reaction: Synergistic Effect of Impurities, Chem. Eur. J., 24 (2018) 928-936.

[22] C.C. Mayorga-Martínez, Z. Sofer, J. Luxa, S. Huber, D. Sedmidubsky, P. Brázda, L. Palatinus, M. Mikulics, P. Lazar, R. Medlín, TaS3 Nanofibers: Layered Trichalcogenide for High Performance Electronic and Sensing Devices, ACS Nano, (2017).

[23] J. Sturala, J. Luxa, M. Pumera, Z. Sofer, Chemistry of graphene derivates: Synthesis, applications and perceptivity's, Chem. Eur. J., (2017).

[24] R. Gusmão, Z.k. Sofer, D. Sedmidubský, S.t.p.n. Huber, M. Pumera, The Role of the Metal Element in Layered Metal Phosphorus Triselenides upon Their Electrochemical Sensing and Energy Applications, ACS Catalysis, 7 (2017) 8159-8170.

[25] J. Žurek, E. Svobodová, J. Šturala, H. Dvořáková, J. Svoboda, R. Cibulka, Chiral ethylene-bridged flavinium salts: the stereoselectivity of flavin-10a-hydroperoxide formation and the effect of substitution on the photochemical properties, Tetrahedron: Asymmetry, 28 (2017) 1780-1791.

More information on nanorobots.cz

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Research target:

The objective of the research project Advanced Functional Nanorobots is
to create an international team which will develop a new category of
nanotechnologies: dynamic nanosystems. 

The aim of the project is to develop nanorobots that will be capable of self-organization and detect-and-act feature. This research will lead into creation of the nanodevices for the real world application, such as detection of biologically active compounds, biomedical applications, targeted drug delivery, environmental remediation and new highly efficient catalysts.

(I) We will develop new nanorobots capable of highly efficient conversion of the chemical energy to kinetic energy, that will allow them to operate at low fuel concentrations. In the frame of the project the following goals will be obtained:

(II) We will develop novel nanorobots with biorecognition elements and capability of “detect-and-act” action. We will investigate complex systems that are highly dynamic and where the ability of the bond is limited more by kinetic aspects than by thermodynamic aspects.

(III) We will develop novel nanorobots with stop/go ability which is important for many applications, especially in the biomedicine field.

(IV) We will develop novel nanorobots with an ability to perform chemotaxis, follow the concentration gradients, and self-organize to large swarms. We will fabricate nanorobots with an ability to communicate with each other in 3D open environment as well as in closed 2D/1D systems, which mimic the human body/vein environment. Experimental research will be complemented with mathematical modelling of the motion of these nanorobots. The additional complexity of these systems stems from the fact that as these motors consume fuel they create concentration gradient in their vicinity. We will develop possibilities to navigate nanomotors, using external magnetic fields, optical navigation or rheology of the surfaces.

(V) We will develop and demonstrate practical application of the coordinated action of thousands of nanorobots for biosensing and environmental remediation.

 

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Key Foreign Scientist:

RNDr. Martin Pumera, Ph.D.

Google Scholar Profileimages (originál)

 

Scientific team:

Assoc. Prof.  Ing. Zdeněk Sofer, Ph.D. - Czech PI

(Education: UCT Prague; post-doctor stay: Forschungszentrum Jülich, Germany) 

Google Scholar Profileimages (originál)

 

Ing. Soňa Hermanová, Ph.D. 

(Education: UCT Prague; post-doctor stay: Brno University of Technology, Czech Republic) 

 

RNDr. Jan Plutnar, Ph.D.

(Education: Charles University in Prague; post-doctor stays: École polytechnique fédérale de Lausanne (EPFL), Switzerland; Charles University in Prague, Czech Republic; Institute of Organic Chemistry and Biochemistry v.v.i., Czech Republic)

 

Ing. Jiří Šturala, Ph.D.

(Education: UCT Prague; post-doctor stay University of Durham, UK) 

 

Ing. Jan Vyskočil, Ph.D. 

(Education: CTU in Prague; post-doctor stay ASCR - Czech Republic) 

 

Carmen Lorena Manzanares, PhD. 

(Education: Complutense University of Madrid, Spain) 

 

Ing. Filip Novotný, Ph.D. 

(Education: CTU in Prague; post-doctor stays CTU in Prague; ASCR - Czech Republic; University of Ostrava, Czech Republic; Nanoparticle Technology Group, CAESAR research institute, Germany) 

 

MVDr. Ludmila Krejčová, Ph.D. 

(Education: Mendel univerzity in Brno; post-doctor stay: CEITEC - Czech Republic) 

  

Rui Jorge Coelho Gusmão, Ph.D.

(Education: University of Barcelona, Spain; post-doctor stay: University of Minho, Portugal) 

    

Carmen C. Mayorga Martinez, Ph.D.

(Education: National University of Tucuman, Argentina; post-doctor stays: Catalan Institute of Nanoscience and Nanotechnology , Spain; Nanyang Technological University, Singapore) 

 

Bahareh Khezri, Ph.D.

(Education: Nanyang Technological University, Singapore  ; post-doctor stays: Cambridge Center for Advanced Research in Energy Efficiency in Singapore) 

 

Yulong Ying, Ph.D.

(Education: Zhejiang University, China  ; post-doctor stays: Zhejiang University, China ) 

 

Katherine Villa, Ph.D.

(Education:  Autonomous University of Barcelona, Spain ; post-doctor stays:  Institute for Bioengineering of Catalonia, Spain) 

 

Mohsen Beladi Mousavi, Ph.D.

(Education:  University of Osnabrück, Germany  ; post-doctor stays: University of Osnabrück, Germany) 

 

Amir Masoud Pourrahimi, PhD 

(Education: KTH Royal Institute of Technology, Sweden ; post-doctor stays: KTH Royal Institute of Technology in collaboration with IVL Swedish Environmental Research Institute, Sweden) 

 

 

 

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Welcome to the website Advanced Functional Nanorobots. This project is co-financed by the EU funds.

NEWS: We accept new  team members with the Marie Curie fellowship
We also help candidates with the preparation of the project and administration.

 

 

NEWS: Job offer

The successful candidate will become a post-doctoral member of prestigious international research team in project Advanced Functional Nanorobots. The candidate will work as researcher at the Department of Inorganic Chemistry, University of Chemistry and Technology in Prague, Czech Republic. 

The candidate must hold Ph.D. title in Chemistry, Physics or related discipline with strong focus on nanoscience or colloidal chemistry.  The candidate should have some experience in electrochemistry, nanotechnology and materials research. Proven track record is essential.

Good time management skills and ability to prioritize are expected, together with the ability to interact with staff and facility users at all levels and to work as part of a multi-disciplinary team. Good oral and written communication skills in English are essential.

To submit your application, please send your full curriculum vitae and list of publications to nanorobots.lab@gmail.com and Zdenek.Sofer@vscht.cz.

More information on nanorobots.cz

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Copyright: UCT Prague 2017
Information provided by the Department of International Relations and the Department of R&D. Technical support by the Computing Centre.
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