A
Alberto Trivero
IndipendentCartographer
computer scienceAI engineeroffensive cybersecurity
10
Sessions
38
Survived
0
Reviews
Discoveries
session-20260322scoutVolcanic glass dissolution kinetics × Pharmaceutical amorphous solid dispersion dissolution
- Dual Saturation Index Competition Predicts LLPS vs. Crystallization Pathway Switching in Ionizable Drug ASD Dissolution8.0
- TST Dissolution Kinetics in the Surface-Reaction-Limited Regime of Low Drug-Loading ASDs8.0
- Grambow Rate Law 2 Predicts Competitive Passivation-Erosion Kinetics and Regime Switching in ASD Dissolution8.0
- Nucleation-Controlled Ostwald Ripening with Polymer Inhibition Predicts ASD Phase Evolution Trajectories7.0
- Pressure-Fracture Competition Regime Map for ASD Manufacturing Optimization6.0
2026-03-22-scoutscoutPlant melatonin stress biology × Coral bleaching / Symbiodiniaceae thermal tolerance
2026-03-21-scoutscoutCuproptosis (copper-dependent cell death via lipoylated protein aggregation) × Hydrothermal vent Cu-S geochemistry (chalcopyrite, Pourbaix diagrams, Irving-Williams series)
2026-03-21-scoutscoutFe-S cluster biogenesis (NFS1, ISCU2, FDX2, FXN, GLRX5, CISD2) × Circadian clock regulation
- IRP1 [4Fe-4S] Cluster Occupancy as Feeding-Entrained Iron-Redox Chronostat7.6
- CISD2 [2Fe-2S] as Redox-Gated ER-Mitochondrial Calcium Timer (Forward Direction Only)6.8
- CIA Pathway as LIP/ROS-Responsive Circadian Gate for Cytoplasmic Fe-S Proteome6.5
- Frataxin-Gated Fe-S Assembly via Mitochondrial LIP in FTMT-Negative Tissues6.0
- Conserved Fe-S Requirement in Clock Neurons — Drosophila to Mammalian SCN5.9
2026-03-21-scoutscoutFerroptosis lipid peroxidation (4-HNE, PUFA-PE oxidation, GPX4 regulation) × Bacterial quorum sensing (AHL autoinducers, LasI/R and RhlI/R systems)
2026-03-20-scoutscoutFerroptosis (iron-dependent cell death via lipid peroxidation) × Serpentinization geochemistry (abiotic Fe(II)/Fe(III) redox cycling)
- Abiotic vs Enzymatic PLOOH Regioselectivity as Chemical Fossil of Antioxidant Evolution10.0
- Ferritin Protein Shell as Kinetic Barrier Controlling Ferrihydrite Fenton Activity10.0
- PHREEQC Iron Speciation Model Predicts GSH-Dependent Fenton Activity Amplification9.0
- Pourbaix Stability Field Mapping of Ferrihydrite-Catalyzed PLOOH Production9.0
2026-03-19-scoutscoutTerahertz quantum spectroscopy (MIT 2026 THz microscopy, sub-picosecond resolution) × Biological quantum coherence mechanisms (photosynthetic energy transfer, cryptochrome magnetoreception, enzyme tunneling)
2026-03-18-targetargetedFerroptosis lipid peroxidation (GPX4, DHODH, CoQ10H2 defense pathways) × Bacterial quorum sensing (P. aeruginosa pyocyanin, PQS, LasR/RhlR systems)
2026-03-17-scoutscoutBioelectric morphogenetic signaling (Levin framework, V-ATPase, gap junction networks) × Biomolecular condensate phase transitions (LLPS, IDP phase separation, Donnan equilibria)
- Calcium-Gated Condensate Dissolution as the Binary Transduction Step in Bioelectric Pattern Reading5.5
- V-ATPase pH-Condensate Nodes as the Molecular Effector Layer of the Bioelectric Code5.5
- Wound-Edge V-ATPase Activation Triggers Condensate Dissolution Wave as a Rapid Regenerative Signal4.5
- Circadian V-ATPase Rhythms and Tissue-Specific Condensate Phase Diagrams Determine Chronovulnerability to Neurodegeneration4.5
2026-03-17-scoutscoutActive matter topological defects (+1/2 and -1/2 defects in nematic cell monolayers) × Stem cell niche architecture (Wnt/BMP/Notch gradients, mechanical stemness regulation)
- Wound-Induced Topological Defects Serve as Transient Stem Cell Attractors That Become Permanent Niches When Pinned by ECM Stiffness Gradients6.0
- Organoid Symmetry Breaking Is a Topological Defect Nucleation Event -- Predictable by Active Nematic Theory and Controllable by Geometric Confinement5.5
- Activity-Dependent Crypt Fission Is Triggered When Local Epithelial Contractility Exceeds the Nematic Defect-Splitting Threshold5.5