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1. Benchmarking Dust Emission Models in M101

   https://doi.org/10.3847/1538-4357/abe942  

   Chastenet, Jérémy; Sandstrom, Karin; Chiang, I-Da; Hensley, Brandon S.; Draine, Bruce T.; Gordon, Karl D.; Koch, Eric W.; Leroy, Adam K.; Utomo, Dyas; Williams, Thomas G. (May 2021, The Astrophysical Journal)

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2. Isoprene emission by plants in polluted environments

   https://doi.org/10.1080/17429145.2023.2266463  

   Bellucci, Manuel; Locato, Vittoria; Sharkey, Thomas D.; De Gara, Laura; Loreto, Francesco (December 2023, Journal of Plant Interactions)

   In recent years, anthropogenic activities and climate change have significantly increased exposure of plants to environmental stresses (single or multiple) and pollutants, with negative consequences for the survival and productivity of vegetation. Plants may activate an armament of defenses against stresses. Isoprene, the most abundant biogenic volatile organic compound (BVOC) emitted by plants, is supposed to have a direct or indirect antioxidant role by quenching reactive oxygen species (ROS) or by reprogramming gene expression for antioxidant activation. On the other hand, isoprene is involved in the chemistry of troposphere, further contributing to a build up of pollutants when mixing with anthropogenic gases. In this review, we summarize present knowledge on the impact of air and soil pollutants on isoprene emission by plants, indicating possible feedback and feedforward mechanisms that may affect whole ecosystem functioning and evolution of plant species. 

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3. Multiphase Shock Cooling Emission in Ultrastripped Supernovae

   https://doi.org/10.3847/1538-4357/addc72  

   Haynie, Annastasia; Wu, Samantha C; Piro, Anthony L; Fuller, Jim (July 2025, The Astrophysical Journal)

   Ultrastripped and Type Ibn supernovae (USSNe and SNe Ibn, respectively) are fast-evolving, hydrogen-poor transients that often show signs of interaction with dense circumstellar material (CSM). S. C. Wu & J. Fuller identify a mass range for helium-core stars in which they expand significantly during core oxygen/neon burning, resulting in extreme late-stage mass loss in tight binaries (P∼ 1–100 days). Here we explore the resulting light curves from a subset of models from S. C. Wu & J. Fuller and find that in some cases they can exhibit two phases of shock cooling emission (SCE). The first SCE is attributed to the circumbinary material, and the second is from the extended helium-burning envelope of the exploding star. Since SCE luminosity is roughly proportional to the initial radius of the emitting material, events that exhibit both phases of SCE provide the exciting opportunity of measuring both the extent of the CSM and the radius of the exploding star. These light curves are explored with both analytic arguments and numerical modeling, and from this we identify the parameter space of CSM mass, helium envelope (HE) mass, and nickel mass, for which the HE SCE will be visible. We provide a qualitative comparison of these models to two fast-evolving, helium-rich transients, SN 2019kbj and SN 2019dge. The similarity between these events and our models demonstrates that this extreme binary mass loss mechanism may explain some SNe Ibn and USSNe. 

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4. Radiative Emission Mechanisms

   https://doi.org/10.1007/s11214-020-00735-1  

   Roth, Nathaniel; Rossi, Elena Maria; Krolik, Julian; Piran, Tsvi; Mockler, Brenna; Kasen, Daniel (October 2020, Space Science Reviews)
5. J-dimer emission in interwoven metal–organic frameworks

   https://doi.org/10.1039/d0sc00876a  

   Newsome, Wesley J.; Chakraborty, Arnab; Ly, Richard T.; Pour, Gavin S.; Fairchild, David C.; Morris, Amanda J.; Uribe-Romo, Fernando J. (May 2020, Chemical Science)

   J-dimer emission is an emergent property that occurs when pairs of ground state fluorophores associate, typically in a dilute solution medium. The resulting fluorescence is shifted with respect to the monomer. J-dimer emission, however, has never been observed in concentrated dispersions or in the solid state. We posited that multivariate (MTV) MOFs with double interwoven structures would help to isolate these dimers within their crystalline matrix. Using this strategy, J-aggregate density was controlled during crystallization by following a substitutional solid solution approach. Here, we identified the presence of J-dimers over the entire composition range for interwoven PIZOF-2 / NNU-28 structures with variable amounts of a diethynyl-anthracene aggregate-forming link. We produced bulk crystals that systematically shifted their fluorescence from green to red with lifetimes (up to 13 ns) and quantum yields (up to 76%) characteristic of π–π stacked aggregates. Photophysical studies also revealed an equilibrium constant of dimerization, K D = 1.5 ± 0.3 M −1 , enabling the first thermodynamic quantification of link–link interactions that occur during MOF assembly. Our findings elucidate the role that supramolecular effects play during crystallization of MTV MOFs, opening pathways for the preparation of solid-state materials with solution-like properties by design. 

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