"Chemistry is a central science once it has interfaces with Physics, Biology, Mathematics, Geography, and other importante fields"
Hybrid Biomaterials
Hybrid materials are created by the combination of different phases. The combination of phases can highlight features of the individual phases or can create unique properties not observed in the individual constituents.
The development of synthetic systems to play important roles in biologic systems is a very complex field of research. Synthetic systems can be found to be useful to treated diseases, to increase life expectance, and to improve life quality.
The rational design of hybrid biomaterials is a very complex field, which results depends on the phase composition, as well as the hybridization process.
In our research groups, we have been working on develop system with enhanced the bactericide activity of wide-spectrum drugs, to develop wound dressing that can faster the healing process, and system that can be triggered to deliver drugs at a very specific site, reducing side effect and improving cancer treatment.
Renewable Energy
The growing demand of energy faster anthropological alterations of the environment, which can lead to a pathway with no return point. Reduce human negative impact on the environment is one of the most challenging task of science. It can only be accomplished if human evaluated to a new era, where fossil fuels are no longer considered and all the consumed energy comes from renewable sources. To do so, we need to create new forms of energy conversion to make green technologies possible. We believe the way passes through the leaning of electrochemical conversion of energy, which will favor miraculous technologies, such as the hydrogen fuel.
"We can only make the difference if we believe we can"
Hybrid Biomaterials
Hybrid materials are created by the combination of different phases. The combination of phases can highlight features of the individual phases or can create unique properties not observed in the individual constituents.
The development of synthetic systems to play important roles in biologic systems is a very complex field of research. Synthetic systems can be found to be useful to treated diseases, to increase life expectance, and to improve life quality.
The rational design of hybrid biomaterials is a very complex field, which results depends on the phase composition, as well as the hybridization process.
In our research groups, we have been working on develop system with enhanced the bactericide activity of wide-spectrum drugs, to develop wound dressing that can faster the healing process, and system that can be triggered to deliver drugs at a very specific site, reducing side effect and improving cancer treatment.
Renewable Energy
The growing demand of energy faster anthropological alterations of the environment, which can lead to a pathway with no return point. Reduce human negative impact on the environment is one of the most challenging task of science. It can only be accomplished if human evaluated to a new era, where fossil fuels are no longer considered and all the consumed energy comes from renewable sources. To do so, we need to create new forms of energy conversion to make green technologies possible. We believe the way passes through the leaning of electrochemical conversion of energy, which will favor miraculous technologies, such as the hydrogen fuel.
"We can only make the difference if we believe we can"