Prospects and Challenges of MXenes as Emerging Sensing Materials for Flexible and Wearable Breath-Based Biomarker Diagnosis.

A fully integrated, flexible, and functional sensing device for exhaled breath analysis drastically transforms conventional medical diagnosis to non-invasive, low-cost, real-time, and personalized health care. 2D materials based on MXenes offer multiple advantages for accurately detecting various breath biomarkers compared to conventional semiconducting oxides. High surface sensitivity, large surface-to-weight ratio, room temperature detection, and easy-to-assemble structures are vital parameters for such sensing devices in which MXenes have demonstrated all these properties both experimentally and theoretically.

Data of XPS in incorporating the platinum complexes dopant on the surface of AgPO photocatalyst.

These data inform about the XPS profile of Ag4d, P2p, and O1s from the samples of AgPO, defect-AgPO, AgPO/PtCl and defect-AgPO/PtCl which were denoted as AP, DAP, AP/Pt, and DAP/Pt, respectively. These samples were made by co-precipitation method using the starting material of silver nitrate (AgNO), disodium hydrogen phosphate dodecahydrate (NaHPO.12HO), and hexachloroplatinic acid hexahydrate (HPtCl.

Supercritical temperature synthesis of fluorine-doped VO(M) nanoparticle with improved thermochromic property.

Fluorine-doped VO(M) nanoparticles have been successfully synthesized using the hydrothermal method at a supercritical temperature of 490 °C. The pristine VO(M) has the critical phase transformation temperature of 64 °C. The morphology and homogeneity of the monoclinic structure VO(M) were adopted by the fluorine-doped system.