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, TrAC - Trends in Analytical Chemistry, Volume 109, December 2018
This review discusses the identification and quantification of microplastic (MP) using Raman microspectroscopy (RM). It addresses scientists investigating MP in environmental and food samples. We show the benefits and limitations of RM from a technical point of view (sensitivity, smallest particle sizes, speed optimizations, analysis artefacts and background effects) and provide an assessment of the relevance of lab analyses and their interpretation (sample sizes for the analysis, uncertainty of the analysis).
This work intends to develop an intelligent, four-dimensional (namely X-Y-Z plus somatosensory), partial control, and virtual-reality-enabled Tai-Chi System (VTCS). Tai-Chi is a traditional mind-body wellness and healing art, and its clinical benefits have been well documented. VTCS integrates Tai-Chi with a series of cutting-edge computer technologies including 4D sensor technology, big-data, signal processing and analysis, human body kinematics, deep learning, virtual reality, and 4D-reconstruction, etc.
Elsevier,

Social Media: The Academic Library Perspective, Chandos Publishing Social Media Series, 2019, Pages 45-55

This chapter addresses SDGs 4 and 10 through the use of a case study from a very large academic library that collaboratively compiled a set of guidelines specifically addressing copyright and disability issues on social media platforms including Twitter, Facebook, and Instagram. It also discusses disseminating these guidelines through a series of workshops targeted at social media managers, and offers an initial assessment of the guidelines impact on social media account owners, managers, and users.
Image of expert cafe discussion
RELX Group held two SDG Inspiration Days to bring together business, government and civil society to scale collaboration and engagement on the SDGs. The first SDG Inspiration Day took place in San Jose, California and focused on disruptive technology to advance the goals. The second day took place in Amsterdam and focused on the power of partnerships to achieve the goals.
In 2018, RELX Group hosted two SDG Inspiration Days to inspire scalable, collaborative action on the 17 SDGs, with particular emphasis on disruptive technology at Silicon Valley and on partnerships at Amsterdam. Watch videos of the speakers from the two days.
The efficiency and power output of a PV module decrease at the peak of sunlight due to energy loss as heat energyand this reduces the module power output. Multi-concept cooling technique, a concept that involves three types of passive cooling, namely conductive cooling, air passive cooling and water passive cooling has the potential to tackle this challenge.
Challenges posed by the intermittency of solar energy source necessitate the integration of solar energy conversion with scalable energy storage systems. The monolithic integration of photoelectrochemical solar energy conversion and electrochemical energy storage offers an efficient and compact approach toward practical solar energy utilization. Here, we present the design principles for and the demonstration of a highly efficient integrated solar flow battery (SFB) device with a record solar-to-output electricity efficiency of 14.1%.
Elsevier,

Multimodal Behavior Analysis in the Wild, Advances and Challenges, Computer Vision and Pattern Recognition, 2019, Pages 79-102

This chapter addresses SDGs 3 and 9 by examining the technologies devised in Glassense—Wearable technologies for sensory supplementation. This regional project aimed to develop a proof of concept prototype of a sensorized pair of glasses to assist users with limited technology skills and multiple disabilities.
This chapter contributes to goals 7 and 9 by looking in-depthly at the various structures of nanocomposaite proton exchange membranes (PEMs) using carbon nanotubes, graphene, and graphene oxide as fillers.
To advance goals 7 and 9, this chapter examines the properties of Polyaniline-Graphene Nanocomposite and considers its suitability as an energy storage material.

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