[The shoulder and elbow register of the DVSE-trend monitoring or early warning system? : A literature-based analysis].

The endoprosthesis register (SEPR) of the D‑A-CH Association for Shoulder and Elbow Surgery e. V. (DVSE) collects data on the implantation of shoulder and elbow endoprostheses.

Highly Dispersed Few-Nanometer Chlorine-Doped SnO Catalyst Embedded in a Polyaniline Matrix for Stable HCOO Production in a Flow Cell.

With the spread of alternative energy plants, electrolysis processes are becoming the protagonists of the future industrial generation. The technology readiness level for the electrochemical reduction of carbon dioxide is still low and is largely based on precious metal resources. In the present work, tin ions are anchored on a polyaniline matrix, via a sonochemical synthesis, forming a few atomic layers of chlorine-doped SnO with a total loading of tin atom load of only 7 wt %.

Zn- and Ti-Doped SnO for Enhanced Electroreduction of Carbon Dioxide.

The electrocatalytic reduction of CO into useful fuels, exploiting rationally designed, inexpensive, active, and selective catalysts, produced through easy, quick, and scalable routes, represents a promising approach to face today's climate challenges and energy crisis. This work presents a facile strategy for the preparation of doped SnO as an efficient electrocatalyst for the CO reduction reaction to formic acid and carbon monoxide. Zn or Ti doping was introduced into a mesoporous SnO matrix via wet impregnation and atomic layer deposition.

Dinuclear uranium(VI) salen coordination compound: an efficient visible-light-active catalyst for selective reduction of CO to methanol.

A new dinuclear uranyl salen coordination compound, [(UO2)2(L)2]·2MeCN [L = 6,6'-((1E,1'E)-((2,2-dimethylpropane-1,3-diyl)bis(azaneylylidene))-bis(methaneylylidene))bis(2-methoxyphenol)], was synthesized using a multifunctional salen ligand to harvest visible light for the selective photocatalytic reduction of CO2 to MeOH. The assembling of the two U centers into one coordination moiety via a chelating-bridging doubly deprotonated tetradentate ligand allowed the formation of U centers with distorted pentagonal bipyramid geometry. Such construction of compounds leads to excellent activity for the photocatalytic reduction of CO2, permitting a production rate of 1.

Coupled Copper-Zinc Catalysts for Electrochemical Reduction of Carbon Dioxide.

A catalyst plays a key role in the electrochemical reduction of CO to valuable chemicals and fuels. Hence, the development of efficient and inexpensive catalysts has attracted great interest from both the academic and industrial communities. In this work, low-cost catalysts coupling Cu and Zn are designed and prepared with a green microwave-assisted route.