Oceania

The scientific community worldwide has been interested in nanoscience over the past few decades due to its potential applications in the energy, pharmaceutical, agricultural, electronics, medical diagnostics, and chemical industries, as well as in space exploration. These distinctive features of iron oxide nanoparticles (IONPs) can be explored for various additional applications, including medication delivery, biosensing, reusable catalysts, antibacterial and anticancer properties, MRI agents, and medical imaging. Therefore, it is essential to fabricate IONPs with the appropriate monodispersity, structure, size, and topology for the applications. The biofabrication of IONPs with the appropriate nature and structure utilizing microbial machinery is safer, faster, and more ecologically friendly than previous approaches. Many microorganisms have previously been investigated for their ability to fabricate IONPs. As a result, manufacturing IONPs using microorganisms is a novel approach that shows great promise. This chapter offers detailed information on several methods for producing IONPs utilizing microbial cells, as well as their multifunctional applications.

A key component of smart city frameworks, efficient waste management is necessary for sustainable urban development. Innovative approaches that combine waste management, the use of renewable energy, and increased energy efficiency are needed to address pressing concerns including resource optimization and environmental sustainability. A thorough approach makes it possible to synthesize interdisciplinary knowledge to address the intricate problems that smart cities face. Fair resource allocation, cutting-edge energy conversion technologies, the adoption of the circular economy, the integration of renewable energy systems, and larger societal issues must all be given top priority in research. Waste-to-energy (WTE) technologies offer a practical way to manage waste in cities and produce energy simultaneously. Utilizing renewable energy is also essential for lowering emissions of pollutants and promoting environmental progress. An overview of smart city concepts is given in this chapter, with particular attention paid to the significance of waste management, the potential of WTE systems, applications of renewable energy, digital advances for waste handling, governance structures, and the main obstacles related to urban waste management.

Combustion of fossil fuels is one of the main sources of emissions of greenhouse gases such as CO2, CO, and NOx. In order to decrease the emissions of these harmful gases and alleviate their unfavorable consequences, it is crucial to shift toward clean and renewable energy technologies. Aside from the environmental importance, there are other reasons, such as fluctuations in the price of fossil fuels, restrictions in their resources, and the importance of energy diversification for shifting toward alternative and clean energy systems. In this chapter, some of the most conventional and developed renewable energy systems are introduced. Afterwards, the importance of shifting toward renewable energy sources and the development of clean energy technologies is discussed. Following that, the obstacles and challenges related to the development of renewable energy systems are provided. According to the provided data and designed plans by international organizations, it can be concluded that renewable energy systems would have a significant contribution in the future; however, there are some challenges, such as requirement for investment, lack of proper infrastructure, and absence of clear and effective policies in some countries and regions that can act as obstacles to the development of these clean systems.

The article discusses the impacts of climate change on the Torres Strait Islands in Australia and the culturally appropriate responses identified by the Torres Strait Islander community.�