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1. From Lone Pairs to Power Players: How Non-nucleophilic Lone Pairs Can Control the Nucleophilicity of a Catalyst

   https://doi.org/10.1021/acs.joc.4c02557  

   Gong, Ziyuan; Smith, Alberto; Harrison, Christian J; Trapnell, Emma; Wiskur, Sheryl L (March 2025, The Journal of Organic Chemistry)
2. Behavior Associations in Lone-Actor Terrorists

   https://doi.org/10.1080/09546553.2020.1787384  

   Altay, Ayca; Baykal-Gürsoy, Melike; Hemmer, Pernille (October 2022, Terrorism and Political Violence)
3. Behavior Associations in Lone Actor Terrorists

   https://doi.org/10.1080/09546553.2020  

   Altay, A; Baykal-Gursoy, M.; Hemmer, P. (August 2020, Terrorism and Political Violence)

   null (Ed.)

   Terrorist attacks carried out by individuals or single cells have significantly accelerated over the last 20 years. This type of terrorism, defined as lone-actor (LA) terrorism, stands as one of the greatest security threats of our time. Research on LA behavior and characteristics has emerged and accelerated over the last decade. While these studies have produced valuable information on demographics, behavior, classifications, and warning signs, the relationship among these characters are yet to be addressed. Moreover, the means of radicalization and attacking have changed over decades. This study first identifies 25 binary behavioral characteristics of LAs and analyzes 192 LAs recorded on three different databases. Next, the classification is carried out according to first ideology, then to incident scene behavior via a virtual attacker-defender game, and, finally, according to the clusters obtained from the data. In addition, within each class, statistically significant associations and temporal relations are extracted using the A-priori algorithm. These associations would be instrumental in identifying the attacker type and intervene at the right time. The results indicate that while pre-9/11 LAs were mostly radicalized by the people in their environment, post-9/11 LAs are more diverse. Furthermore, the association chains for different LA types present unique characteristic pathways to violence and after-attack behavior. 

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4. Chemistry, Structure, and Function of Lone Pairs in Extended Solids

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   Laurita, Geneva; Seshadri, Ram (April 2022, Accounts of Chemical Research)
5. Stabilizing 2D Pt‐Based Halide Perovskites via Solvent Lone Pair Donation

   https://doi.org/10.1002/adom.202402435  

   Liu, Huilong; Biswas, Maitreyo; Smith, Walter_J; Barnard, Edward; Beechem, Thomas; Mannodi‐Kanakkithodi, Arun; Bansal, Shubhra (October 2024, Advanced Optical Materials)

   Abstract Platinum‐based halide perovskites exhibit promising optoelectronic properties along with merits of low‐temperature processing and stability. Current research on Pt halide perovskites is limited to 0D A₂BX₆structure as the ABX₃3D structure is thermodynamically unstable. Herein, the study reports the stabilization of the ABX₃structure into a 2D layered phase, CsPtI₃(DMSO), that is stable up to 181.5 °C. The 2D phase shows an excitonic peak at the absorption edge of 600 nm, indicating quantum confinement. It also exhibits a large Stokes shift due to intersystem crossing (ISC), with a quenched singlet excitonic fluorescence at 610 nm and strong triplet emission at 852 nm. Pt(II) co‐ordinates with dimethyl sulfoxide (DMSO) via σ‐donation of S lone‐pair electrons and π‐ back donation from Pt to S, stabilizing CsPtI₃(DMSO) layered structure. The strong electronic interaction between DMSO and Pt(II) and orbital mixing lead to spin‐orbit‐coupling, facilitating ISC and singlet‐to‐triplet exciton energy transfer. The interaction of Pt and DMSO is further confirmed by addition of thioacetamide (TAA), a strong S‐donor, which retards the formation of 2D layered structure, and directly results in Cs₂PtI₆and Pt. 

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