Science

The role of science in achieving the United Nations' Sustainable Development Goals (SDGs) cannot be overstated. Science, technology, and innovation are instrumental to addressing the significant challenges encompassed within the 17 SDGs, ranging from poverty and inequality to climate change and biodiversity loss.

Science underpins our understanding of the challenges our world faces and is pivotal in SDG 13 (Climate Action) and SDG 14 (Life Below Water) and 15 (Life on Land), where understanding ecosystems, environmental degradation, and climate change is paramount. Research in the Earth and environmental sciences provides us with knowledge about the severity of these issues and potential mitigation and adaptation strategies.

Furthermore, in SDG 3 (Good Health and Well-being), science in the form of medical research and biotechnology contributes to the development of treatments and preventive measures for various diseases. Vaccines, therapeutic drugs, and disease prevention techniques have been made possible due to advancements in biological and health sciences.

Moreover, technological advancements and innovative solutions, often rooted in science, are essential to achieving SDG 7 (Affordable and Clean Energy), SDG 6 (Clean Water and Sanitation), and SDG 9 (Industry, Innovation, and Infrastructure). From developing renewable energy technologies to creating systems that enhance water and sanitation accessibility, science serves as the bedrock of these innovations.

Science also plays a critical role in SDG 2 (Zero Hunger) by improving agricultural methods, crop yields, and food storage. Through genetic engineering and modern farming techniques, scientists can help increase food security and reduce world hunger.

Finally, science is integral to SDG 4 (Quality Education). A well-rounded education should include a robust scientific curriculum that fosters critical thinking, problem-solving, and a deep understanding of the world. Furthermore, by promoting scientific literacy, societies are better equipped to make informed decisions about policies and practices that affect sustainable development.

To make strides in achieving the SDGs, the scientific community, policymakers, and society must work together. The integration of science into policy-making processes is fundamental in developing and implementing sustainable and impactful strategies that move us closer to accomplishing these ambitious yet achievable goals.

Research4Life has been providing free and low-cost access to scientific research in the developing world for 20 years. Read this insightful story about the history of Research4Life, and its new strategy for the future with the aim to help researchers in the developing world fully participate in the global research community. This relates to SDG 4, 10 & 17.
This chapter aligns with Goal 14: Life Below Water and Goal 13: Climate Action by exploring the role of viruses in the marine carbon cycle and describing how advances in marine virus research can improve marine ecosystem models and predictions of the future of marine carbon cycling.
This chapter aligns with Goal 14: Life Below Water and Goal 9: Industry, innovation and infrastructure by describing the advancements in scientific data collection capabilities afforded by the innovation and use of oceanographic buoys.
This Article supports SDG 3 by estimating the prevalence of genetically confirmed facioscapulohumeral muscular dystrophy type 1, a rare disease, in China, showing that the estimated prevalence was 0.75 per million during 2001-2020.
This content aligns with Goal 15: Life on Land by exploring the fossil history, phylogeny, and diversity of crocodilians.
Elsevier,

Advances in Thermal Energy Storage Systems, Second Edition, Methods and Applications, Woodhead Publishing Series in Energy, 2021, Pages 673-697

This chapter advances SDG 7 by explaining how the fundamentals of thermal energy storage in solar thermal power plants, in order to produce solar energy on demand and thus increase the feasibility of solar power as an energy source.

COP26 is the 2021 United Nations annual climate change conference. COP stands for Conference of the Parties. Parties are the signatories of the United Nations Framework Convention on Climate Change (UNFCCC) - a treaty agreed in 1994 which has 197 Parties (196 countries and the EU). The 2021 conference, hosted by the UK, together with our partners Italy, in Glasgow, will be the 26th meeting of the Parties, which is why it's called COP26.

Elsevier, Current Opinion in Green and Sustainable Chemistry, Volume 31, October 2021
Microplastic (MP) and nanoplastic (NP) pollution is among the global environmental concerns of the 21st century owing to its transboundary distribution and persistence. The number of studies focused on the determination of MPs in air, water, sediment, soil, and biota of an important number of ecosystems has increased exponentially. However, the impact that the methodologies used to isolate and determine MPs and NPs have on the environment owing to the consumption of reagents and energy and the generation of waste is not yet studied.
Elsevier, Current Opinion in Green and Sustainable Chemistry, Volume 31, October 2021
Global warming and climate change caused by an ever-increasing accumulation of atmospheric CO2 are reaching alarming levels. In order to address this issue, significant research effort has been dedicated to the development of carbon capture processes for sequestration or utilization of CO2. Current technologies rely on energy-intensive temperature- or pressure-swing of CO2 sorbents, limiting the economic feasibility of the process. Herein, we review recent advances in electrochemically mediated CO2 capture and release.
Elsevier, Current Opinion in Green and Sustainable Chemistry, Volume 31, October 2021
Energy production and CO2 emissions are strictly connected. One of the most efficient and straightforward mitigations to the climate change is the conversion of CO2 into chemicals that may play the role of energy vectors in a carbon-based energy cycle. Practical aspects of using abundant and low-cost materials are crucial for real-world applications, in particular redox catalysts with high turnover number, selectivity, and efficiency to overcome the CO2 stability.

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