5 research outputs found
Reaction kinetics of cisplatin and its monoaquated species with the modulating agents (di)mesna and thiosulphate
No full textAllied Professionals7Screening for eligibility for subcutaneous icd implant in adults with congenital heart disease: how many patients are eligible?8Identifying the outcome of patients in a multispeciality nurse led rapid access blackout clinic undergoing implantable loop recorders for unexplained syncope9Implant of medtronic linq in an outpatient setting10Does time from diagnosis of atrial fibrillation to ablation effect success of catheter ablation?11Detection and management of atrial fibrillation in the pacing clinic12The efficacy of a nurse-led cardioversion service on clinical outcomes13Do major ion channels of pacemaker clock also play a role in atrioventricular nodal conduction in young and aged rats?14Anatomical and functional determinants of preferential rotor locations and stability in atrial fibrillation15Pacemaker-induced cardiomyopathy in the sheep: rva but not rvot pacing results in a heart failure cellular phenotype16A steep apd-restitution slope does not cause apd-alternans in the intact human heart17Cardiac sites of the in-vivo human heart exhibiting apd-alternans show changes in calcium-handling proteins and repolarizing currents18Dynamic transmural activation recovery interval gradients exceed apico-basal gradients in the intact human heart: Table
No full textBulk nanostructured materials
No full textThis paper will address three topics of importance to bulk nanostructured materials. Bulk nanostructured materials are defined as bulk solids with nanoscale or partly nanoscale microstructures. This category of nanostructured materials has historical roots going back many decades but has relatively recent focus due to new discoveries of unique properties of some nanoscale materials. Bulk nanostructured materials are prepared by a variety of severe plastic deformation methods, and these will be reviewed. Powder processing to prepare bulk nanostructured materials requires that the powders be consolidated by typically combinations of pressure and temperature, the latter leading to coarsening of the microstructure. The thermal stability of nanostructured materials will also be discussed. An example of bringing nanostructured materials to applications as structural materials will be described in terms of the cryomilling of powders and their consolidation
