Towards the development of care management in community care for elderly people in Korea

This study is concerned with the feasibility of several forms of care management in the development of community care for elderly people in Korea. Chapter one introduces the background of community care in Korea in the light of demographic, socio-economic, and political realities. This chapter reviews the changing Korean society as a barometer to understand the scope, size, and speed of social needs, especially community care for elderly people, over the last few decades. Chapter two explores various definitions, concepts, and theories of community, community care, and care management by building upon trends previously established in the research. This helps to identify the different models of care management and the pre-conditions necessary for the application of different models in Korea. Chapter three explores what factors have affected the development of community care, and what community dare has achieved for elderly people in the UK. Especially, care management in community care for elderly people in the UK is examined in detail. Chapter four details the findings of field research on community care for elderly people in Korea. This covers the needs of elderly people and their carers, and the social worker's tasks and available resources. The potential for the use of care management based on the findings of field research is assessed. Chapter five investigates whether the UK models of care management are suitable for Korean society, which interventions are useful for developing care management, and the strategies, and principles involved

Design of SnO2 Electron Transport Layer in Perovskite Solar Cells to Achieve 2000 h Stability Under 1 Sun Illumination and 85 °C

Abstract In order to realize both efficient and stable perovskite solar cells, designing electron transport layer (ETL) is of crucial importance to withstand constant light illumination and thermal stress while maintaining high charge extractability. Herein, commonly used SnO2 nanoparticle‐based ETL for perovskite solar cells is modified by ionic‐salt ammonium chloride (NH4Cl) and tin chloride dihydrate (SnCl2∙2H2O) as additives, which is easily fabricated by simple one‐step spin coating of single precursor solution. With the presence of these dual additives at the ETL, the crystallinity of the upper perovskite layer is clearly enhanced. Defect analyses on the devices suggest that these modifications can effectively passivate trap sites that reside within the ETL and at the perovskite interfaces with the carrier‐transport layers. As a result, the modified SnO2 ETL results in an improvement of device stability under thermal or light stress condition, maintaining over 80% of its initial efficiency after ≈2000 h storage under elevated temperature (85 °C) and after ≈2400 h of operation under 1 sun illumination