Technological sustainable materials and enabling in semiconductor memory industry: A review

Gan, Chong Leong; Chung, M. H.; Zou, Y. S.; Huang, Chun‐Che; Takiar, Hem

doi:10.1016/j.prime.2023.100245

Cited by 2 publications

References 28 publications

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Chip fabrication from electrochemical perspective: challenges and opportunities

Rai,

Natarajan,

Birla

et al. 2024

Electrochemistry

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The semiconductor industry is playing a very crucial role in the technological advancement in the field of electrochemical device fabrication, yet it faces significant challenges in terms of environmental sustainability. Thus, this chapter is an effort to bring forward the intricate processes involved in semiconductor chip fabrication by detailing processes like lithography, etching, and doping, and describes the development of micro-electro-mechanical systems (MEMS) and energy-efficient Network-on-Chips (NoCs), along with the history of chip fabrication from early developments (∼1950s) to systems on chip (present). Finally, the main objective of this work is to explore integrating electrochemical devices with semiconductor chips, such as lab-on-chip systems for medical diagnostics, microfluidic devices for energy harvesting, and electrochemical energy storage devices, such as supercapacitors. By exploring innovative approaches for miniaturizing energy storage devices to integrate with microelectronic systems seamlessly. Hence this opens new avenues for exploring the potential of integrating electrochemical devices with semiconductor chips for real-life applications. this work also tries to provide the basic knowledge to budding researchers and policymakers to understand the basics of semiconductor chips and their integration with electrochemical devices.

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Chip fabrication from electrochemical perspective: challenges and opportunities

Rai,

Natarajan,

Birla

et al. 2024

Electrochemistry

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Sustainable Energy and Semiconductors: A Bibliometric Investigation

Liu,

Lu,

Tran

et al. 2024

Sustainability

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This study investigates the link between semiconductors and sustainability, focusing on their role in advancing energy sustainability from 1999 to 2023. Key research trends, collaboration patterns, and the evolving role of semiconductors in addressing energy sustainability challenges are identified. Semiconductor research significantly contributes to the United Nations’ sustainability goals, particularly in improving energy efficiency and promoting clean energy. The analysis reveals the predominance of primary research articles, highlighting the field’s interdisciplinary nature with major contributions from engineering and physics. Network visualization illustrates extensive global collaboration among institutions, with key players like the Chinese Academy of Sciences, MIT, and Stanford University. Clustering analysis identifies critical themes in semiconductor research, including manufacturing improvements, advanced materials, and sensing technologies. This study underscores the necessity for interdisciplinary and global collaboration to address sustainability challenges, paving the way for future innovations and sustainable practices in the semiconductor industry.

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Technological sustainable materials and enabling in semiconductor memory industry: A review

Cited by 2 publications

References 28 publications

Chip fabrication from electrochemical perspective: challenges and opportunities

Chip fabrication from electrochemical perspective: challenges and opportunities

Sustainable Energy and Semiconductors: A Bibliometric Investigation

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