More Like this

1. Aryl Migration on Graphene

   https://doi.org/10.1021/jacs.0c05965  

   He, Maggie; Swager, Timothy M. (October 2020, Journal of the American Chemical Society)

   null (Ed.)
2. Migration as Submodular Optimization

   Goelz, P; Procaccia, AD (January 2019, AAAI'19)
3. Balancing forces in migration

   https://doi.org/10.1016/j.ceb.2018.04.006  

   Oakes, Patrick W (October 2018, Current Opinion in Cell Biology)
4. How do environmental stressors influence migration? A meta-regression analysis of environmental migration literature

   https://doi.org/10.4054/DemRes.2024.50.2  

   Zhou, Shuai; Chi, Guangqing (January 2024, Demographic Research)

   Background: The amount of literature on environmental migration is increasing. However, existing studies exhibit contradictory results. A systematic synthesis of the environment–migration relationship is much needed. Objective: This study summarizes research findings, calculates the effect sizes of environmental stressors, identifies publication bias, and investigates heterogeneous environmental effects on migration. Methods: We collected 3,380 estimates from 128 studies published between 2000 and 2020 to explore the environment–migration relationship and performed weighted instrumental variable regression to unveil the heterogeneous environmental effects on out- and net migration. Results: The majority of environmental stressors were not important predictors of out- and net migration. Among the results showing environmental impacts on migration, 58% and 68% reported that environmental stressors increased out- and net migration, respectively, while 58% reported that environmental stressors decreased in-migration. The overall environmental impact on migration was small; however, disaster-related stressors showed a medium effect, and rapid-onset stressors had a stronger impact than slow-onset ones. Multivariate meta-regression analyses demonstrated that environmental stressors were more likely to trigger internal migration than international migration and that developed countries were less likely to experience out-migration. Rapid-onset environmental stressors did not increase out-migration but played an important role in decreasing net migration toward environmentally stressed areas. Meanwhile, we also found a publication bias toward studies showing a positive relationship between environmental stressors and migration in the previous environmental migration literature. Conclusions: Environmental stressors may affect migration; however, the environmental effect depends on migration measurements, environmental stressors' forces and rapidity, and the context in which migration takes place. Contribution: This study contributes to migration studies by synthesizing and validating the environment–migration relationship and enhancing our understanding of how and under what circumstances environmental stressors may affect migration. 

   more » « less
5. Grain Boundary Migration in Polycrystals

   https://doi.org/10.1146/annurev-matsci-080921-091511  

   Rohrer, Gregory S.; Chesser, Ian; Krause, Amanda R.; Naghibzadeh, S. Kiana; Xu, Zipeng; Dayal, Kaushik; Holm, Elizabeth A. (July 2023, Annual Review of Materials Research)

   Grain boundaries in polycrystalline materials migrate to reduce the total excess energy. It has recently been found that the factors governing migration rates of boundaries in bicrystals are insufficient to explain boundary migration in polycrystals. We first review our current understanding of the atomistic mechanisms of grain boundary migration based on simulations and high-resolution transmission electron microscopy observations. We then review our current understanding at the continuum scale based on simulations and observations using high-energy diffraction microscopy. We conclude that detailed comparisons of experimental observations with atomistic simulations of migration in polycrystals (rather than bicrystals) are required to better understand the mechanisms of grain boundary migration, that the driving force for grain boundary migration in polycrystals must include factors other than curvature, and that current simulations of grain growth are insufficient for reproducing experimental observations, possibly because of an inadequate representation of the driving force. 

   more » « less