The project is focused on the development, especially syntheses and reactivity, of nearly unexplored monomeric formally phosphorus(I), arsenic(I) and antimony(I) compounds, where the pnictogen is stabilized within unprecedented heterocycles. These compounds in the case of lighter pnictogens (P and As) exhibit an aromatic character, thereby representing analogues of known organic molecules, but displaying diverse reactivity. Their reactivity with substrates containing various multiple bonds and sources of carbenes will be investigated with the aim to synthesize other heterocyclic compounds that have not been in detail studied yet. The attention will be also given to the redox and coordination chemistry of the central pnictogens, which has to crucially influence the chemical behavior of these heterocycles. The structure of target compounds will be elucidated by multinuclear NMR, UV-vis, IR and Raman spectroscopy and X-ray diffraction analysis. A theoretical survey dealing with the structure of these compounds and mechanism of their formation will be an important part of the project..

The project is focused on the investigation of preparation and structure of entirely unexplored monomeric organoantimony(I) and organobismuth(I) compounds ? stibinidenes and bismuthinidenes. These compounds will be stabilized by the help of N,C,N- or N,C-chelating ligands. Central atoms (Sb, Bi) carry two lone pairs of electrons and represent an unprecedented and promising class of ligands for coordination of transition metals. Thus, the second goal of the project is a detailed investigation of the coordination of transition metal compounds (especially carbonyls) by mentioned stibinidenes and bismuthinidenes. The structure of target compounds will be studied mainly by the help of multinuclear NMR, IR and Raman spectroscopy and in the solid state by X-ray diffraction analysis. A theoretical survey dealing with the structure of these unprecedented compounds constitutes an important part of this project. Particular emphasis in this regard will be given to the description of the bonding interaction between transition metals and antimony(I) and bismuth(I) donor centers.

1. Preparation of precursors for syntheses of heteroboroxines. 2. Preparation and characterization of heteroboroxines
with central MB2O3 ring system, where M=Ga, In, Si, Ge, Sn, Sb, Bi. 3. Studies dealing with structure of heteroboroxines. 4.
Reactivity studies concerning prepared compounds.

Development and commercialization of equipment and application of electrodialysis with bipolar membrane (EDBM) is the aim of the project. Equipment should consist of optimized bipolar membrane, pilot membrane module EDBM-Y, pilot unit EDBM-Y and industrial scale module EDBM-II, all of them newly developed, produced and evaluated on real solution. Equipment should be applied for NaOH and H2SO4 production from waster Na2SO4 stream, coming from tailing pond of uranium mine located at state owned company DIAMO branch GEAM. Technology application should be described in terms of size, mass and energy balance and investment and operation costs should be estimated.

The main aim of the project is the fundamental research of the relationship among (i) preparation of iron- and lanthanide (La-, Nd-) doped TiO2 photocatalysts, (ii) its optical, electron, textural and structural properties and (iii) its photocatalytic activity in two model reactions, i.e. photocatalytic decomposition of ammonia and alcohols. To achieve this, the following specific objectives of are set: (i) advanced analysis of optical and electron properties as well as its relationship to textural and structural properties, (ii) analysis of activity/selectivity of synthesized photocatalysts in two probe reactions, (iii) analysis of the rate of photocatalysis activation and electron?hole formation under the irradiation of different energy, (iv) synthesis of the selected photocatalysts in the form of thin films and the comparison of photocatalytic activity of corresponding materials in continuous and batch reactors , (v) advanced analysis of the complex relationship between the optical/electron/ textural/structural properties and the activity/selectivity of studied photocatalysts.

The main aim of the project is the fundamental research of the Mg/Al, Ca/Al and Zn/Al mixed oxides, i.e. the preparation and characterization of catalysts in order to describe their active centres in the model reactions (aldol condensation and transesterification)

Organisation of the Workshop: GPR Road Show Pardubice - Introduction to Ground Penetrating Radar and its applications in civil engineering

The project is based on the Long-term Plan for the educational and scientific, research, development and innovation, artistic and other creative activities at the University of Pardubice for the period 2016 - 2020. The project aims to support the work of academics and innovation in teaching the subjects Anatomy and Urgent Medicine and Disaster Medicine. By means of this project will be upgraded educational models for the above mentioned subjects. The effectiveness of planned project promotes interdisciplinary and cross-curricular use of models that are detailed in the supplement.

In the Czech Republic there is a wide array of sculptural works made of plaster. They are represented by unique casts of sculptures which trace the process of their creation. A considerable amount of those works are in poor condition. They are artworks of exceptional value inherited from great sculptors of the first half of 20th century, who actively contributed to the formation of the Czech national awareness, confidence and identity.

We aim to identify and document the collection of plaster casts in the Czech Republic, starting first with the prominent sculptor, Stanislav Sucharda.

The main outcome will be an organized exhibition of his sculptures, which will present both plaster artworks, as a crucial part of the legacy of great masters of sculpting in the context of all their creative process, and the restoration and care for works of art made of plaster.

Concurrently, there will be educational programmes for students as well as for the general public to familiarize them with the basis and expressions of sculpture of the first half of 20th century in connection with the creation of the national cultural identity and with the issues of restoration and care for plaster artworks.
The primary content of applied research lies in testing traditional materials and in development of new ones as well as new technologies, in optimising the process of restoration and conservation of moveable monuments made of plaster. The aim of the applied research is to determine the limits of individual procedures and technologies used and subsequently, to set an optimum mode of the way the artworks would be stored after restoration. Neither in Czech nor in foreign literature the topic of restoration of plaster artefacts has been sufficiently worked on. Generally, the topic of plaster sculptures is quite a neglected and unexplored area, in spite of the fact it is plaster in which a lot of outstanding precious works of art have been preserved.