Will there be races in heaven?

Drawing on work in the Philosophy of Race, this chapter argues that the existence of races in heaven is either incompatible or only questionably compatible with the mainstream Christian view of the afterlife. However, it also argues that there is a phenomenon adjacent and related to race that can exist in the afterlife, namely racial identity. If one thinks of racial identity as a kind of practical identity, it turns out that racial identity is primarily psychological. Thus, its existence in heaven is compatible with the mainstream Christian view that people with some semblance of human psychology continue on after death. Furthermore, the chapter offers reasons to think that we will need racial identities in the afterlife to facilitate forgiveness and reconciliation. Finally, it suggests that preserving racial identities from this life to the next is, on balance, preferable

Race in the Afterlife: An Eastern Christian Approach

In a previous paper, I addressed the question: Will there be races in heaven? (Placencia, 2021 ). There I argued that the answer to that question depends on one’s view of heaven and one’s account of race. After sorting out these concepts, I defended the conclusion that racial identity, but not race, is compatible with the mainstream Christian account of the afterlife. However, I left open the question of whether deflationary realist races (what I will refer to as minimalist races in this chapter) are compatible with the Christian view of the afterlife. Here, I revisit this question from an Eastern Christian perspective. This tradition has a robust theology of bodies in the afterlife that can guide us toward a more substantive answer -- namely, there will be (minimalist) races in heaven

Sulfur-Capped Germanium Nanocrystals: Facile Inorganic Ligand Exchange

The development of applications for germanium nanocrystals has been hindered by the limited availability of synthetic methods coupled with poorly understood ligand-exchange chemistry. Herein we describe the synthesis of germanium nanocrystals and ligand exchange experiments designed to establish facile routes toward ligand replacement and, consequently, layers that are amenable to charge-transfer. After assessing thiols, carboxylates, and dithiocarbamates, sulfur dissolved in 1-ocatadecene was determined to be the most amenable to ligand exchange, with over 95% of the initial alkylamine ligand replaced as determined by Fourier transform infrared spectroscopy (FTIR). These results were in good agreement with density functional theory calculations showing a strong preference for Ge–S bonding. The materials were fully characterized via powder X-ray diffraction, FTIR, transmission electron microscopy, and X-ray and UV photoelectron spectroscopy. This new ligand exchange procedure provides a possible route toward the fabrication of thin films that may be employed in such applications as photovoltaic devices