Mapping the molecular mechanism of zinc catalyzed Suzuki-Miyaura coupling reaction: a computational study.

The Suzuki-Miyaura Coupling (SMC) reaction is a powerful method for forming carbon-carbon bonds in organic synthesis. Recent advancements in SMC reactions have introduced first-row transition metal catalysts, with zinc garnering significant interest due to its cost-effective and eco-friendly nature. Despite progress in experimental protocols, the mechanistic details of zinc-catalyzed SMC reactions are limited.

Angiomyxolipoma of the Cheek: A Rare Oral Tumour.

Angiomyxomas, also known as vascular myxolipomas, are a rare type of soft tissue tumor characterized by the proliferation of adipose tissue within a myxoid stroma accompanied by multiple vascular channels. They represent a distinct variant of lipomas and require differentiation from other benign and malignant lipoma subtypes. Despite their rarity, only a few cases of angiomyxolipoma have been documented in medical literature.

Effectiveness of heat stress interventions among outdoor workers: a protocol paper.

Introduction: Heavy work in scorching temperatures can cause dehydration and heat stress, which can lead to a number of heat-related diseases. Heavy work in intense heat without rest or hydration is the main cause. The "Water, Rest, Shade" (WRS) intervention program for outdoor workers in hot weather reduces heat stress.

Biocompatible PVAc--PLLA Acrylate Polymers for DLP 3D Printing with Tunable Mechanical Properties.

The technological advancement of Additive Manufacturing has enabled the fabrication of various customized artifacts and devices, which has prompted a huge demand for multimaterials that can cater to stringent mechanical, chemical, and other functional property requirements. Photocurable formulations that are widely used for Digital Light Processing (DLP)/Stereolithography (SLA) 3D printing applications are now expected to meet these new challenges of hard and soft or stretchable structural requirements in addition to good resolution in multiple scales. Here we present a biocompatible photocurable resin formulation with tunable mechanical properties that can produce hard or stretchable elastomeric 3D printed materials in a graded manner.