Co-infection is an important aspect of many infectious diseases, with substantial modeling efforts in the last decades. Yet, simple and sufficiently general mathematical frameworks to analyze and unify the full spectrum of hierarchical patterns emerging from co-infection interactions and variation in other fitness dimensions between two or more strains are missing. Here, we contribute to fill this gap, thanks to a model reduction obtained after assuming strain similarity. We model simultaneously 5 fitness dimensions where strains can differ close to neutrality, and decompose dynamics in two timescales: neutral dynamics between types on a fast timescale, and non-neutral selective processes on a slow timescale, driven explicitly by trait variation and a replicator equation. We bridge adaptive dynamics and epidemiological multi-strain models, generalizing and advancing analytically these two perspectives on co-infection and coexistence.

The increasing need in the development of storage devices is calling for the formulation of alternative electrolytes, electrochemically stable and safe over a wide range of conditions. To achieve this goal, electrolyte chemistry must be explored to propose alternative solvents and salts to the current acetonitrile (ACN) and tetraethylammonium tetrafluoroborate (Et4NBF4) benchmarks, respectively. Herein, phenylacetonitrile (Ph-ACN) has been proposed as a novel alternative solvent to ACN in supercapacitors. To establish the main advantages and drawbacks of such a substitution, Ph-ACN + Et4NBF4 blends were formulated and characterized prior to being compared with the benchmark electrolyte and another alternative electrolyte based on adiponitrile (ADN). While promising results were obtained, the low Et4NBF4 solubility in Ph-ACN seems to be the main limiting factor. To solve such an issue, an ionic liquid (IL), namely 1-ethyl-3-methylimidazolium bis[(trifluoromethyl)sulfonyl] imide (EmimTFSI), was proposed to replace Et4NBF4. Unsurprisingly, the Ph-ACN + EmimTFSI blend was found to be fully miscible over the whole range of composition giving thus the flexibility to optimize the electrolyte formulation over a large range of IL concentrations up to 4.0 M. The electrolyte containing 2.7 M of EmimTFSI in Ph-ACN was identified as the optimized blend thanks to its interesting transport properties. Furthermore, this blend possesses also the prerequisites of a safe electrolyte, with an operating liquid range from at least −60 °C to +130 °C, and operating window of 3.0 V and more importantly, a flash point of 125 °C. Finally, excellent electrochemical performances were observed by using this electrolyte in a symmetric supercapacitor configuration, showing another advantage of mixing an ionic liquid with Ph-ACN. We also supported key structural descriptors by density functional theory (DFT) and COnductor-like Screening Model for Real Solvents (COSMO-RS) calculations, which can be associated to physical and electrochemical properties of the resultant electrolytes.

The fall armyworm Spodoptera frugiperda is recognized as a polyphagous, voracious, and economically important pest in America and other continents. The control of this pest has been used mainly chemical insecticides, but biological control is an alternative strategy, and different isolates of baculoviruses were evaluated for this control. In this work, the biological activity, in vitro susceptibility, phylogenetic relationship, and protein expression in insect cells of six SfNPV baculoviruses isolated from S.  frugiperda were determined. The infection of the cell line Sf9 was permissive to four of the five SfNPVs strains and non-infective to the SfGV strain. SfNPV isolates from Argentina, Honduras and the USA were more virulent than those from Mexico, resulting in up to 12 and 1000 times more effectiveness. The genes lef-8, lef-9 y polh/granulin were partially amplified in five SfNPVs and the SfGV, where nucleotide changes were identified in lef-8 of the SfNPVs and lef-8, lef-9, and granulin from SfGV-RV. The phylogenetic analysis showed that the five strains SfNPVs turn out to be closely related to the others reported SfNPV, just like the strain SfGV-RV and SfGV. The protein expression of host cells in response to SfNPV-Fx identified six proteins differentially expressed. They are involved in changes in the host cell, altering its cellular structure and normal functions. The characterization from these six SfNPV strains has established the basis for exploring the specific mechanisms, evolution, and ecology to evaluate the potential to be used as biological control agents against S. frugiperda.

Institutions working in cultural heritage contexts have at their disposal large quantities of data, which need to be properly handled and classified to be used in applications, shared, and possibly even integrated. For these purposes to be achieved, shared conceptual models - in the form of ontologies - are needed. CIDOC-CRM is the reference standard for managing cultural heritage data. However, some of its modeling choices do not meet the modeling criteria of formal ontology. The purpose of this report is to document the research work done during my fellowship at Le Studium in 2019-2020 concerning the use ontologies for cultural heritage. This covers the ontological analysis of (some portions of) CIDOC and the development of an extension of the latter model for research purposes in the scope of scientific projects at the IPAT-CESR.