Two-Step Chemical Recycling of Tire Rubber to Isoprene by Wahyu S. Putro (22660521)

“…Here, we report a two-step chemical recycling method for tire rubber. This method involves cyclodepolymerization (CDP) through the successive ring-closing metathesis of isoprene rubber (reinforced by sulfur cross-linking and a carbon black (CB) filler) and pyrolytic process of the oligomer/polymer into monomeric isoprene. …”

Supplementary information files for "Lego-microfluidics generated magnetically responsive bifunctional microcapsules with encapsulated phase change material" by Sumit Parvate (9033080)

“…Iron (II, III) oxide (Fe₃O₄) nanoparticle-embedded microcapsules encapsulating hexadecane (HD) are synthesized without external heating or cooling in just ~80 s. The process involves forming oil-in-oil-in-water (O/O/W) double emulsion droplets with Norland Optical Adhesive (NOA) photopolymeric shell and consolidating them through on-the-fly shell polymerization using thiol-ene “click” chemistry. …”

Revealing the Ultrafast Energy Transfer Pathways in Energetic Materials: Time-Dependent and Quantum State-Resolved by Jia Liu (41593)

“…Intramolecular vibrational energy transfer is gaining tremendous attention as a regulator of condensed-phase behavior and reactions. In polyatomic molecules, this transfer is an ultrafast process involving multiple modes with numerous quantum states. …”

Nanoscale Flexing Mechanism of a Metal–Organic Framework Determined by Atomic Force Microscopy by Mollie Trueman (21307912)

“…<b>1</b>·0.96DMF undergoes a flexing expansion transformation on guest exchange to form <b>1</b>·<i>x</i>EtOH through the passage of wavefronts of cooperatively transforming, consecutive rows of unit cells parallel to the (011) plane, resulting in whole (011) layers of unit cells transforming by a layer-by-layer shear mechanism. The reverse process involves <b>1</b>·<i>x</i>EtOH undergoing a flexing contraction transformation on guest exchange to form <b>1</b>·0.96DMF through a layer-by-layer shear mechanism involving layers of unit cells parallel to the (011̅) plane transforming in a cooperative manner. …”

Nanoscale Flexing Mechanism of a Metal–Organic Framework Determined by Atomic Force Microscopy by Mollie Trueman (21307912)

“…<b>1</b>·0.96DMF undergoes a flexing expansion transformation on guest exchange to form <b>1</b>·<i>x</i>EtOH through the passage of wavefronts of cooperatively transforming, consecutive rows of unit cells parallel to the (011) plane, resulting in whole (011) layers of unit cells transforming by a layer-by-layer shear mechanism. The reverse process involves <b>1</b>·<i>x</i>EtOH undergoing a flexing contraction transformation on guest exchange to form <b>1</b>·0.96DMF through a layer-by-layer shear mechanism involving layers of unit cells parallel to the (011̅) plane transforming in a cooperative manner. …”

Poster: Evaluating an LGBTQ+ awarding gap and supporting our queer student community: An intersectional perspective (Phase 1) by Willow Neal (20775370)

“…</p><p dir="ltr">This project is split into two phases. Phase 1 will involve a literature review and quantitative model that aims to explore the relationships between queer identities and academic awarding. …”

Characteristics of participants. by Karen Klein (6650600)

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Database and Dictionary. by Karen Klein (6650600)

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Anticipated barriers to MNH-EPI-COS adoption in observational research studies and surveillance in the context of epidemics. by Karen Klein (6650600)

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Acceptability for the inclusion of outcomes and definitions and feasibility of data collection for each outcome. by Karen Klein (6650600)

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pgph.0005474.t005 - by Karen Klein (6650600)

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Overall acceptability of the MNH-EPI-COS. by Karen Klein (6650600)

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Simulation results for the phage communication circuit from Pathania <i>et al</i>. [5]. by Fabricio Cravo (21387854)

Table 1_The future of Italian phase I trials regulation: lessons from a nationwide survey.docx by Celeste Cagnazzo (4782615)

“…</p>Methods<p>A nationwide cross-sectional survey (March–April 2024) was conducted among professionals involved in phase I trials. A 19-item questionnaire explored institutional characteristics, certification processes, quality structures and perceptions of the Determination. …”

Simulated dynamics of the Mutual Annihilation protocol [26]. by Fabricio Cravo (21387854)

Temperature-driven metabolic shifts in duck egg components during early embryogenesis: from diapause to active developmental phase by Zekuan Zuo (21274645)

“…We propose that temperature-driven reactivation of diapause involves metabolic responses linked to dynamic small molecule profiles in yolk and albumen, potentially regulating embryonic resumption. …”

The Electron-Yielding Capacity of the Matrix Can Explain Apparent Zero-Order Reduction of Electron-Acceptors in Aquifers at Steady State by Vitor Cantarella (20901094)

“…To better understand and quantify the reduction rates of electron acceptors at field sites, we propose investigating the processes and rates controlling the microbial access to solid-phase electron donors.…”

Biphasic Coacervation Controlled by Kinetics as Studied by De Novo-Designed Peptides by Tianhao Ren (17494851)

“…When pH-dependent electrostatic interaction and hydrophobic interaction are involved or the peptides form secondary structures, the Coacervation process is then path-dependent, indicating that the kinetics controls the phase separation process. …”

Biphasic Coacervation Controlled by Kinetics as Studied by De Novo-Designed Peptides by Tianhao Ren (17494851)

“…When pH-dependent electrostatic interaction and hydrophobic interaction are involved or the peptides form secondary structures, the Coacervation process is then path-dependent, indicating that the kinetics controls the phase separation process. …”

Biphasic Coacervation Controlled by Kinetics as Studied by De Novo-Designed Peptides by Tianhao Ren (17494851)

“…When pH-dependent electrostatic interaction and hydrophobic interaction are involved or the peptides form secondary structures, the Coacervation process is then path-dependent, indicating that the kinetics controls the phase separation process. …”