DIPARTIMENTO DI CHIMICA

type: 
Dipartimento
url: 
https://www.chem.uniroma1.it

LABORATORIO DIDATTICO DI CHIMICA FISICA I

Il laboratorio di Chimica Fisica I è principalmente di supporto ai corsi di Chimica fisica I con laboratorio del CDS in Scienze Chimiche L-27 (I semestre) e delle attività di divulgazione all’interno della Terza Missione (ospita le attività del Lab Zio Tungsteno) e dei Percorsi per le Competenze Trasversali e l’Orientamento (PCTO) del Dipartimento di Chimica.

A multi-purpose low-energy proton source for tailoring the properties of quantum materials, advanced insulators for optics, and solid cells for energy applications (AMLET)

Italiano

The Kaufman source acquired allows varying the proton beam energy from 10 to 1200 eV with a high degree of reproducibility and control. The same applies to the dose of incorporated protons. These very important parameters are typically hard to control by other systems, such as plasma sources or electrochemical methods. Indeed, Kaufman sources are configured to have the region of gas ionization physically separate from the intended target, avoiding exposure of the samples to intense and potentially damaging electric fields.

Advanced protein crystallization robot

Italiano

Despite having an optimal sample for crystallization, obtaining crystals can be an arduous and unpredictable goal. The most important approaches to overcome this bottleneck were the discovery of appropriate precipitants, new methods of preparation of macromolecule samples, new methods of carrying out crystallization experiments but above all the increase of crystallization efficiency through automation.

Platform for nanoscale Electrochemical Synthesis and Characterizations based on Atomic force microscope (PESCA)

Italiano

PESCA platform consists in the combination of AFM (with nm resolution) with an electrochemical set-up. This combination  affords simultaneous acquisition of different

types of images (topological activity of electrified surface and correlation with applied electrical potential) unveiling fundamental interfacial properties at nm range

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