For intensive care physicians, burns are a frequent and challenging patient complication. Specialist facilities prioritise patient stabilisation, infection prevention, and functional rehabilitation to the greatest extent possible. Researchers have been focusing on burns for decades, and thanks to their efforts, the mortality rate for burn patients, especially young patients and those with moderate burns, has been steadily declining. However, the intensivist often faces challenges that make it hard to provide care and stabilise patients. There may be unique complications associated with burn wounds that necessitate either delayed treatment or prolonged rehabilitation. Improvements in patient stabilisation and treatment have resulted from advances made in burn wound care thanks to research. This article discusses recent advances in the treatment of burn patients, focusing on the pathophysiology of burns and the management of burn wounds.
In this work, signal integrity, power consumption and stability of multilayer vertical graphene nanoribbon (MLVGNR) interconnects are determined and compared with multilayer horizontal GNR (MLHGNR) and conventional copper interconnects for different intercalation dopants and specularity indices. Lithium-intercalated MLVGNR outperforms these conventional interconnects in terms of delay. However, it is not very much immune to noise and also consumes more power but overall noise delay product and power delay product are least among all. As far as stability is concerned, MLVGNR interconnects have a comparable gain and phase margin and a steep transient response without an undershoot as compared with other interconnect configurations, which experience undershoot. It is worth to point out that MLVGNR interconnects are more amenable to scaling compared with other alternatives. This study for the first time analyses and compares the performance, signal integrity and stability of MLVGNR, MLHGNR and copper interconnects.
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