Self-Assembling of Multilayered Polymorphs with Ion Beams.

Polymorphism determines significant variations in materials' properties by lattice symmetry variation. If they are stacked together into multilayers, polymorphs may work as an alternative approach to the sequential deposition of layers with different chemical compositions. However, selective polymorph crystallization during conventional thin film synthesis is not trivial; changes of temperature or pressure when switching from one polymorph to another during synthesis may cause degradation of the structural quality.

Reading tea leaves worldwide: Decoupled drivers of initial litter decomposition mass-loss rate and stabilization.

The breakdown of plant material fuels soil functioning and biodiversity. Currently, process understanding of global decomposition patterns and the drivers of such patterns are hampered by the lack of coherent large-scale datasets. We buried 36,000 individual litterbags (tea bags) worldwide and found an overall negative correlation between initial mass-loss rates and stabilization factors of plant-derived carbon, using the Tea Bag Index (TBI).

Universal radiation tolerant semiconductor.

Radiation tolerance is determined as the ability of crystalline materials to withstand the accumulation of the radiation induced disorder. Nevertheless, for sufficiently high fluences, in all by far known semiconductors it ends up with either very high disorder levels or amorphization. Here we show that gamma/beta (γ/β) double polymorph GaO structures exhibit remarkably high radiation tolerance.

[Pharmacomechanical thrombectomy for total-subtotal deep vein thrombosis].

Objective: To improve treatment outcomes in patients with late stages of total-subtotal deep vein thrombosis using pharmacomechanical thrombectomy.

Material And Methods: We compared treatment outcomes in 2 homogeneous groups of patients with deep vein thrombosis and severe acute venous insufficiency. Standard anticoagulation (apixaban) was performed in the first group (=20), endovascular treatment was applied in the second group (=20).

Tuning heterogeneous ion-radiation damage by composition in NiFe binary single crystals.

Radiation-induced heterogeneous damage is the single largest source of failures seen in structural components in nuclear power reactors. Single crystal materials without grain boundaries, show considerable promise for overcoming this problem. In this work, such heterogeneous damage was further overcome in NiFe single crystal alloys a simple strategy of fine-tuning the composition.