Technology

Technology plays a central role in achieving the Sustainable Development Goals (SDGs), particularly SDG 9 (Industry, Innovation, and Infrastructure), SDG 4 (Quality Education), SDG 3 (Good Health and Well-being), and SDG 13 (Climate Action). The transformative power of technology can accelerate progress towards all the SDGs by driving economic growth, reducing inequalities, enhancing access to basic services, and promoting sustainability.

Under SDG 9, technology, particularly in terms of Information and Communication Technology (ICT), is a key enabler of industrial innovation and infrastructure development. ICT has the potential to drive economic growth by enhancing productivity, creating jobs, and fostering entrepreneurship. Moreover, it can contribute to making industries more sustainable by facilitating the transition towards smart manufacturing and circular economy models.

Regarding SDG 4, technology can greatly enhance access to quality education. Digital technologies, including e-learning platforms, can break down barriers to education, such as geographical distance, socio-economic status, and physical disabilities. They can also enrich the learning process by enabling personalized, student-centered learning experiences.

In the context of SDG 3, technology has a profound impact on health outcomes. Medical technologies, from simple devices like thermometers to complex systems like MRI machines, have revolutionized healthcare delivery. Furthermore, digital health technologies, such as telemedicine and mobile health apps, can enhance access to health services, improve patient outcomes, and reduce healthcare costs.

For SDG 13, technology offers powerful tools for mitigating and adapting to climate change. Renewable energy technologies can help to reduce greenhouse gas emissions, while climate information services can enhance resilience to climate impacts. Furthermore, digital technologies can facilitate the monitoring and reporting of climate actions, contributing to greater transparency and accountability.

However, the benefits of technology are not automatic, and there are significant challenges to overcome, including the digital divide, cybersecurity threats, and ethical issues related to privacy and data ownership. Thus, policy interventions and multi-stakeholder partnerships are needed to ensure that technology serves as a catalyst for sustainable development and does not exacerbate inequalities.

Elsevier,

Journal of Responsible Technology, Volume 9, April 2022, 100024

A study of the risks from emerging technologies, such as artificial intelligence, and their disproportionate impact on particularly vulnerable individuals or groups in a community. The authors identify and map types of harms or injustices experienced in the digital space to understand how they are translated into rights violations by adjudicative bodies. Racial structural injustice is one aspect of the research.
Elsevier,

Machinery and Energy Systems for the Hydrogen Economy, Volume , 1 January 2022

This chapter advances the UN SDG goals 7, 11, and 12 by reviewing the current state of hydrogen production and markets to determine the most economically viable routes towards introducing clean hydrogen fuel
Elsevier,

Machinery and Energy Systems for the Hydrogen Economy, Volume , 1 January 2022

This chapter advances the UN SDG goals 7, 11, and 12 by reviewing the fundamentals of hydrogen, it's properties, and its use as a sustainable fuel source
A Review on food technology, in the context of SDGs 3 and 9, focusing specifically on the potential clinical applications of food-based substances, especially agro-waste and food processing byproducts.
Elsevier, Internet of Things (Netherlands), Volume 16, December 2021
This study investigates the capabilities, performance outcomes, and barriers of drones applied to humanitarian logistics (HL). A systematic literature review was conducted to synthesize prior research on drones and cumulatively identify current knowledge gaps which require further investigation. In order to identify the relevant literature on the topic, a rigorous research protocol was applied for the retrieval and selection processes. In total, 142 publications fulfilled the selection criteria and were thoroughly analyzed.
Self-management of type 1 diabetes (T1D) is a difficult task that involves different actions and decisions and requires various types of knowledge. Nowadays, it can be done partly autonomously, using a mobile digital device that measures the level of blood glucose. The FreeStyle Libre, launched on the Swiss market in 2016, is one such device. Drawing on Science and Technology Studies and adopting a sociocultural approach to learning, the present study investigated how healthcare professionals and young people living with T1D learned to use this new device during a summer camp.
Elsevier,

Digital Signal Processing: A Review Journal, Volume 119, December 2021

The field of digital histopathology has seen incredible growth in recent years. Digital pathology is becoming a relevant tool in healthcare, industrial and research sectors to reduce the saturation of pathology departments and improve the productivity of pathologists by increasing diagnostic accuracy and reducing turnaround times. Artificial Intelligence (AI) algorithms may be used for the identification of relevant regions, extraction of features from a histological image and overall classification of images into specific classes.

Following the landmark 2015 United Nations Paris Agreement, a growing number of countries are committing to the transition to net-zero emissions. Carbon capture and storage (CCS) has been consistently heralded to directly address emissions from the energy and industrial sectors and forms a significant component of plans to reach net-zero. However, despite the critical importance of the technology and substantial research and development to date, CCS deployment has been slow. This review examines deployment efforts over the last decade.

Background: The announcement of China's 2060 carbon neutrality goal has drawn the world's attention to the specific technology pathway needed to achieve this pledge. We aimed to evaluate the health co-benefits of carbon neutrality under different technology pathways, which could help China to achieve the carbon neutrality goal, air quality goal, and Healthy China goal in a synergetic manner that includes health in the decision-making process.

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