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Hi, my name is Jonathan Martin and I'm presenting my research in optimizing on the color retracing for a structural color prediction in photonic crystal balls

In nature the structural color could use beautiful colorations and we can find in some peatles or butterflies

But we can also employ this coloration for the characterization of the nanostructures that are producing them

What we are presenting here is a Monte Carlo retracing approach in which we basically should trace and make them drive with the material

as it would do the regular light in the visible spectrum and collect how much has been transmitted and reflected

This way we can determine the structural color that we show this material from the spectra of the reflected intensity

So come and see how we have optimized the simulation variables to jump to the next level and employ

This approach for the 3d characterization of nanostructures. I will be happy to hear all the questions that you may have and thank you for your time

Hi, I'm Auro Bosco a third semester map student at FAU. While heterogeneous catalysis offers easy separation

homogeneous catalysis helps with higher reactivity and selectivity

In addition to that patchy particles enable easy access of the reactants to the cathetically active metal sites

Bringing together these three concepts is what patchy scams is all about

If that seems interesting to you, I invite you to my poster presentation on patchy gallium silver scams for propane dehydrogenation

I will talk you through some of the important findings of our research. See you all there. Bye

Hello, I'm Khalid. My poster is about tetrahedral particles which are particles with cool triangular faces like this one here

Nowadays such particles can be synthesized in a nanoscope and even have attractive and repulsive interactions between their faces

By visiting my poster on the mural you'll get to know about the different crystal structures we investigate which are made out of such particles

As well as a new crystal structure we discovered

We studied the stability of these crystal structures using molecular dynamics and multicolour simulations to see if adding interactions to tetrahedral faces can lead to new stable crystal structures

Have a nice evening and looking forward to seeing you

Have you heard about inverse opals before? If not, let me tell you that they are very interesting highly ordered hierarchical porous materials

Which are synthesized by self-assembly processes, however they are so far limited to be used as thin films over a substrate

What if I told you now that at Exology's lab we have been working on a simple synthesis to obtain the silica inverse super particles

By combining concepts of photonic pulses this means that we will have an inverse opal within a spherical confinement

These types of materials have the advantage to now be able to re-dispersed but also keeping the highly interconnected porosity an order that characterizes inverse opals

Promising applications for these types of materials are as pigments or as catalytic supports

I'm Lucia Morales and if you would like to know more about this project please visit my poster presentation

Thank you for watching!