From Absence to Presence, from Silence to Voice: Victims in Transitional Justice Since the Nuremberg Trials

As much as victims have been absent in traditional and national criminal justice for a long time, they were invisible in transitional and international criminal justice after World War II. The Nuremberg Trials were dominated by the perpetrators, and documents were mainly used instead of victim testimony. Contemporaries shared the perspective that transitional justice, both international and national procedures should channel revenge by the victims and their families into the more peaceful venues of courts and legal procedures. Since then, victims have gained an ever more important role in transitional, post-conflict and international criminal justice. Non-judicial tribunals, Truth and Reconciliation Commissions, and international criminal courts and tribunals are relying on the testimony of victims and thus provide a prominent role for victims who often take centre stage in such procedures and trials. International criminal law and the human rights regime have provided victims with several routes to make themselves heard and fight against impunity. This paper tracks the road from absence to presence, and from invisibility to the visibility of victims during the second half of the last and the beginning of the present century. It shows in which ways their presence has shaped and changed transitional and international justice, and in particular how their absence or presence is linked to amnesties.

Hydrogen sensing properties of Pt/Lanthanum oxide- molybdenum oxide nanoplatelet/SiC based Schottky diode

An investigation of the electrical and hydrogen sensing properties of a novel Schottky diode based on a nanostructured lanthanum oxide-molybdenum oxide compound is presented herein. Molybdenum oxide (MoO3) nanoplatelets were grown on SiC substrates via thermal evaporation which was then subsequently coated with lanthanum oxide (La2O3) by RF sputtering. The current-voltage characteristics and hydrogen sensing performance (change in barrier height and sensitivity as well as the dynamic response) were examined from 25 to 300°C. At 180°C, a voltage shift of 2.23V was measured from the sensor while exposed to 1% hydrogen gas under a 100 μA constant reverse bias current. The results indicate that the presence of a La2O3 thin layer substantially improves the hydrogen sensitivity of the MoO3 nanoplatelets.