Your search keyword '"Sustainable"' showing total 12,572 results

1. Current Topics in Sustainable Supply Chain Management: A Review

Author

Budakoti, Samiksha and Gupta, Vishal

Published

2024

2. Digital Resilience in Smart Cities: A Dynamic Capability Approach

Author

Ramdani, Boumediene, Arora, Anvita, editor, Belaïd, Fateh, editor, and Lechtenberg-Kasten, Sara, editor

Published

2025

3. Experimental Investigation on the Characteristics of Soft Soil Using Nano-Materials

Author

Debbarma, Sriti, Shil, Tanmoy, Pal, Sujit Kumar, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Verma, Amit Kumar, editor, Singh, T. N., editor, Mohamad, Edy Tonnizam, editor, Mishra, A. K., editor, Gamage, Ranjith Pathegama, editor, Bhatawdekar, Ramesh, editor, and Wilkinson, Stephen, editor

Published

2025

4. Plastic Waste to Hydrogen: A Pathway to Sustainable Energy Solutions

Author

Master, Yesha, Goel, Priya, Mandal, Priyabrata, Sharma, Ritika, Hansda, Arti, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Kumar, Vipin, editor, Dubey, Brajesh Kumar, editor, and D. Yadav, Kunwar, editor

Published

2025

5. Characterization and Management of Municipal Solid Waste: A Case Study of an Indian City

Author

Ranjan, Alok, Gupta, Rajan Dev, Rawal, Nekram, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Kumar, Vipin, editor, Dubey, Brajesh Kumar, editor, and D. Yadav, Kunwar, editor

Published

2025

6. Experimental Study on Behaviour of Cement Concrete in 3d Printing

Author

Vaishali, P., Varunkumar, P., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Goel, Manmohan Dass, editor, Biswas, Rahul, editor, and Dhanvijay, Sonal, editor

Published

2025

7. Robust Iris Image Encryption via Black Widow Optimization Method

Author

Tripathy, Ramamani, Singh, Hakam, Kaur, Navneet, Parmar, Monika, Nayak, Rudra Kalyan, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Khurana, Meenu, editor, Thakur, Abhishek, editor, Kantha, Praveen, editor, Shieh, Chin-Shiuh, editor, and Shukla, Rajesh K., editor

Published

2025

8. Climate-Responsive Vernacular Mosque Design; Comparative Analysis Between Hot-Humid and Hot-Arid Regions

Author

Othman, Rosniza binti, Ashour, Shaimaa Samir, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Mansour, Yasser, editor, Subramaniam, Umashankar, editor, Mustaffa, Zahiraniza, editor, Abdelhadi, Abdelhakim, editor, Al-Atroush, Mohamed, editor, and Abowardah, Eman, editor

Published

2025

9. Compaction Properties of Alkali-Activated Fly Ash and Slag Blends with Demolition Wastes

Author

Doan, Tung, Arulrajah, Arul, Horpibulsuk, Suksun, Chu, Jian, Narsilio, Guillermo A., Darmawan, Stephen, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Rujikiatkamjorn, Cholachat, editor, Xue, Jianfeng, editor, and Indraratna, Buddhima, editor

Published

2025

10. Navigating the Future: The Role of SDGs in Enforcing Sustainable Development Principles

Author

Alawsi, Husham, Emran, Abdul Qader, Ebrahim, Alaa Mohammed, Ibrahim, Firas Mohammed, Mohammed, M. N., Kacprzyk, Janusz, Series Editor, Novikov, Dmitry A., Editorial Board Member, Shi, Peng, Editorial Board Member, Cao, Jinde, Editorial Board Member, Polycarpou, Marios, Editorial Board Member, Pedrycz, Witold, Editorial Board Member, AlDhaen, Esra, editor, Braganza, Ashley, editor, Hamdan, Allam, editor, and Chen, Weifeng, editor

Published

2025

11. Strategic Human Resource Management Impacting on the Sustainable Competitive Advantage: Mediating Role of Employee Involvement and Human Capital Development

Author

Nagi, Muskan, Kacprzyk, Janusz, Series Editor, Novikov, Dmitry A., Editorial Board Member, Shi, Peng, Editorial Board Member, Cao, Jinde, Editorial Board Member, Polycarpou, Marios, Editorial Board Member, Pedrycz, Witold, Editorial Board Member, AlDhaen, Esra, editor, Braganza, Ashley, editor, Hamdan, Allam, editor, and Chen, Weifeng, editor

Published

2025

12. Utilizing Remote Sensing to Monitor Health and Wellbeing in Sustainable Medical Environments

Author

Bhatnagar, Gunjan, Bengalur, Megha D., Agarwal, Trapty, Prabhu, A., Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Kumar, Amit, editor, Gunjan, Vinit Kumar, editor, Senatore, Sabrina, editor, and Hu, Yu-Chen, editor

Published

2025

13. Research Trends on Smart Cities Evolution Towards Sustainable Urban Planning: A Bibliometric Study Over the Past Half Decade

Author

Tandon, Ankita, Arora, Radhika Dev Varma, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Varma, Anurag, editor, Chand Sharma, Vikas, editor, and Tarsi, Elena, editor

Published

2025

14. Machine Learning in Fraud Detection for Financial Sustainability in Credit Card

Author

Kaur, Harleen, Chauhan, Ritu, Shamsi, Yezdanul Haque, Alankar, Bhavya, Ghosh, Ashish, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Whig, Pawan, editor, Silva, Nuno, editor, Elngar, Ahmad A., editor, Aneja, Nagender, editor, and Sharma, Pavika, editor

Published

2025

15. Evaluating Cyber-Crime Using Machine Learning and AI Approach for Environmental Sustainability

Author

Chauhan, Ritu, Mehtar, Khushi, Kaur, Harleen, Alankar, Bhavya, Ghosh, Ashish, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Whig, Pawan, editor, Silva, Nuno, editor, Elngar, Ahmad A., editor, Aneja, Nagender, editor, and Sharma, Pavika, editor

Published

2025

16. Citrate-crosslinked silver nanoparticles impregnation on curcumin-dyed cellulose fabric for potential surgical applications

Author

Habib, Saima, Kishwar, Farzana, Raza, Zulfiqar Ali, and Abid, Sharjeel

Published

2024

17. Revenge or Renewal? The Nexus of Revenge Tourism, Boomerang Effect and Sustainable Development Goals

Author

Shukla, Parag, author, Bansal, Jahanvi, author, and Tripathi, Pankaj Kumar, author

Published

2024

18. Qualitative Insights Into Harvesting Sustainability: The Role of Organic Agriculture in Advancing Sustainable Development Goals

Author

Arora, Manpreet, author, Gupta, Sanjeev, author, and Mittal, Amit, author

Published

2024

19. Untersuchung von Naturkautschuklatex‐ (NRL‐) Verbundstoffen durch Druckversuche für erneuerbare und nachhaltige Baumaterialien.

Author

Qdeimat, Malik, Pranjic, Andrija, and Trautz, Martin

Abstract

Investigating natural rubber latex (NRL) composites through compressive testing for renewable and sustainable building materials This article explores the innovative use of natural rubber latex (NRL) as a fundamental component in the development of sustainable and renewable composite building materials, particularly focusing on incorporating wood chips as reinforcing particles. The study investigates the compressive mechanical properties of various composite formulations, analysing the influence of NRL contents and particle types – considering different wood species, shapes and sizes. Key factors such as particle geometry, NRL content, and sample preparation methods are identified as crucial factors in enhancing the mechanical properties of these composites. The results show that NRL composites exhibit distinctive characteristics like non‐linear behaviour, hysteresis, stress relaxation, and the Mullins effect during compression tests. The significance of these composite materials in construction is heightened by their potential to utilize NRL sourced from plants other than rubber trees, such as dandelions, thus advancing sustainable construction practices. This research aims to focus attention on exploring new, flexible, and highly customized composite materials by utilizing natural fibres and NRL across a range of construction applications. [ABSTRACT FROM AUTHOR]

Published

2024

20. Novel Cement-Free UHPC with High Gamma-Ray Resistance Using Calcium Oxide–Activated Slag, Iron and Barite Powders, and Steel Fibers.

Author

Bahmani, Hadi and Mostofinejad, Davood

Subjects

*GAMMA rays, *ATTENUATION coefficients, *SILICA sand, *RADIATION shielding, *BENDING strength, *IRON powder

Abstract

This study focuses on the development and evaluation of a novel cement-free gamma-ray-resistant ultrahigh-performance concrete (UHPC), known as UHPC-CAS. UHPC-CAS is composed of calcium oxide–activated slag, iron and barite powders, and steel fibers, making it a type of ultrahigh-performance geopolymer concrete (UHPGC). In this study, the effects of replacing silica sand with varying percentages of iron and barite powders on the mechanical and radiation properties of UHPC-CAS were investigated. The optimal replacement ratio of iron powder was found to be 50%, resulting in the highest compressive, tensile, and bending strengths among all mixtures without fibers. Furthermore, the UHPC-CAS samples reinforced with steel fibers and containing barite powder exhibited a more pronounced softening zone than those containing iron powder. With 100% iron powder and 3% steel fibers, UHPC-CAS achieved superior resistance to gamma rays, as evidenced by the highest attenuation coefficient of 0.234 cm and the lowest half-value layer of 2.96 cm. This research demonstrates the potential for developing sustainable cement-free UHPC for use in nuclear facilities and other applications requiring high radiation shielding. [ABSTRACT FROM AUTHOR]

Published

2024

21. Improving Environmental Sustainability of Operating Theatres: A Systematic Review of Staff Attitudes, Barriers, and Enablers.

Author

Lodhia, Siya, Pegna, Victoria, Abrams, Ruth, Jackson, Daniel, Rockall, Timothy A., and Rizan, Chantelle

Abstract

Objective: To understand views of staff in relation to attitudes, enablers, and barriers to implementation of environmentally sustainable surgery in operating theatres. This will ultimately help in the goal of successfully implementing more sustainable theatres. Background: Global health care sectors are responsible for 4.4% of greenhouse gas emissions. Surgical operating theatres are resource intensive areas and improvements will be important to meet Net-Zero carbon emissions within health care. Methods: Three databases were searched (Web of Science, Ovid, and PubMed), last checked January 2024. We included original manuscripts evaluating staff views regarding sustainable operating theatres. The Mixed Methods Appraisal Tool was used for quality appraisal and data analysed using thematic synthesis. Results: A total of 2933 articles were screened and 14 fulfilled inclusion criteria, using qualitative (1), quantitative (2), and mixed methods (11). Studies were undertaken in a variety of clinical (Department of Anaesthesia, Surgery, Otolaryngology, Obstetrics and Gynaecology and Ophthalmology) and geographical settings (Australia, Canada, France, Germany, New Zealand, United States, United Kingdom, and Ireland). Across studies there was a lack of evidence exploring enablers to implementation, but barriers mainly related to the following themes: education and awareness, leadership, resistance to change, facilities and equipment, time, and incentive. Conclusions: This systematic review identified attitudes and barriers perceived by clinicians towards improving environmental sustainability within operating theatres, which may inform future strategy towards sustainable surgery. Most studies used a survey-design, whereas use of interviews may provide deeper insights. Future work should be extended to wider stakeholders influencing operating theatres. In addition, implementation studies should be carried out to examine whether barriers do change in practice. [ABSTRACT FROM AUTHOR]

Published

2024

22. HIGH EFFICIENCY IRRIGATION SYSTEM AND SOCIO-ECONOMIC DEVELOPMENT FOR THE FARMERS OF PAKISTAN.

Author

Yaqoob, Muhammad Akram, Zia, Zartashia, Mehmood, Qaisar, Riaz, Muhammad, and Yaqoob, Muhammad Majid

Abstract

This study examine the factors in the adoption of high-efficiency irrigation system (HEIS) for socio-economic development in southern Punjab, Pakistan. Multi-stage sampling is used to select the sample of 400 farmers (200 HEIS adopters and 200 non-adopters) from major districts of south Punjab. The results demonstrated that determinants including average landholding, age, education and awareness of HEIS all had a significant impact on the adoption of HEIS. The adoption rate of HEIS was also found to be impacted by energy crises, operational and maintenance issues, high installation prices and a lack of experienced employees. A higher proportion of participants strongly believed that HEIS might increase agricultural productivity while simultaneously saving water for future use. Additionally, respondents believed that shifting HEIS to high-value crops improves social status, particularly in rural areas. BCR values for wheat, guava and citrus using SI and DI were found to be larger than 1. The SI system's NPV values for the wheat crop ranged from Rs. 248034 to Rs. 463191. Similarly, the results are consistent for DI for guava and citrus orchards (BCR > 1 and NPV positive values demonstrate that HEIS project is more economically feasible and viable than TI). Moreover, the benefit-cost ratio demonstrated that, when compared to conventional irrigated growers, the yield and net benefit due to HEIS of a variety of crops, including citrus, wheat, and guava, improved significantly to 48.48%, 70%, 44.83%, 102%, 178% and 107%, respectively. Water productivity of HEIS-irrigated wheat, guava and citrus were calculated as 1.2, 2.6 and 2.5 kg/m³, respectively and increased highly significantly than TI. The findings suggested that government initiatives should focus to enhance adoption rate of HEIS. This could be accomplished by providing modest subsidized HEIS and imparting awareness to farmers about the socioeconomic benefits of HEIS. [ABSTRACT FROM AUTHOR]

Published

2024

23. Modeling groundwater to assess the effect of artificial recharge (Kerbala, Iraq).

Author

Majeed, Sumayah A., Al-Mansori, Nassrin J., and Alquzweeni, Saif S.

Abstract

Aquifer artificial recharge is one method of restoring groundwater supplies and storing extra water to compensate for losses. In this regard, this research simulates the Dammam aquifer in the MODFLOW code in GMS software. The other objective is to simulate the effect of artificial recharge on groundwater levels in the Dammam-confined aquifer in Iraq. Modeling was done by specifying boundaries and initial conditions. The model was calibrated for steady and unsteady conditions. The calibrated model was utilized to predict groundwater levels in 2030 and assess five artificial recharge scenarios with different proportions of injection water. The water source in the simulation recharge model was excess water from sand-washing plants. The effect of these scenarios was evaluated on the available monitoring wells. The artificial recharge by injecting 60% of the daily excess water into 15 and 51 wells showed a maximum groundwater level increment of about 17–30%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

24. Sustainable utilization of fruit and vegetable waste for the extraction of phenolics, antioxidants, and other valuables.

Author

Boora, Anuj and Gupta, Deepshikha

Abstract

This work portrays a sustainable utilization of fruits and vegetable waste (FVW) and aims in extraction of valuables. The waste chosen for the study are papaya peel, pea pod, mustard oil cake, banana peel, orange peel, pomegranate peel, pineapple peel, used coffee bean, onion peel, and apple peel. The extraction of bioactive components was done with methanol by percolation method at room temperature. The extraction was also done using microwave extractor and bath ultrasonicator. The extracts were analyzed for total phenolic content (TPC) using Folin-Ciocalteu method in terms of mg/ml of gallic acid equivalents (GAE). Total phenolic content was found to be highest in apple peels (0.171 mg/ml), papaya peels (0.166 mg/ml), onion peel (0.146 mg/ml), and pomegranate (0.126 mg/ml). The extracts were analyzed for their antioxidant activity using 2,2-diphenyl-1-picrylhydrazyl radical (DPPH), 2,2-azinobis (3-ethylbenzothiazoline-6-sulfonic acid) (ABTS), ferric reducing antioxidant power (FRAP), and cupric reducing antioxidant capacity (CUPRAC) assays. Pomegranate peel showed 51.05% degradation in comparison to pure ascorbic acid which is a super antioxidant showing 90% degradation of DPPH (0.2 mM). Total protein content was determined by Biuret method. Anthrone reagent was used to determine the amount of carbohydrate in each sample quantitatively. The results underscore the immense potential for sustainability and innovation within the domain of food waste utilization for extraction of valuables. [ABSTRACT FROM AUTHOR]

Published

2024

25. Managing the deployment of telecommunication towers in Ghana: an urban-integrated sustainable approach.

Author

Buertey, Joseph Teye, Atsrim, Felix, Emmanuel, Appiah-Kubi, and Boateng, Kwasi

Subjects

DIGITAL transformation, LONG-Term Evolution (Telecommunications), ECONOMIC development, REAL property acquisition, METROPOLIS

Abstract

Telecommunication plays a crucial role in the modern society, and its importance in Ghana's rapid digital and economic transformation is very relevant. Ghana is however confronted with huge telecommunication towers doted in the skylines of its major cities with some towers mounted in homes and on roof top of structures. The objective of this research was to investigate the major challenges associated with the urban deployment of the towers and suggest sustainable approach to its deployment. Using quantitative descriptive design, data was collected from the three leading telecommunication companies in Ghana receiving a response rate of 77.6%. Analysis of responses showed that, land acquisition and use challenges, compliance with regulatory and statutory issues, community occupational health issues, neighbourhood challenges and urban planning regulations are the key factors that affect the deployment of towers in Ghana. The research postulates that the urban deployment of telecommunication towers would require an integrated and regulated planning approach that constrains environmental impact, diminishes land use, optimises existing urban infrastructure through co-location and the deployment of advanced technologies such as Low Earth Orbit (LEO) Satellites, High Altitude Platforms (HAPs) and Long-Term Evolution (LTE) and 5G in managing the growing urban demand for urban telecommunication. [ABSTRACT FROM AUTHOR]

Published

2024

26. Designing for climate change: twenty-five design features to improve sanitation technology resilience in low- and middle- income countries.

Author

Cunningham, Ian, Kohlitz, Jeremy, and Willetts, Juliet

Abstract

Climate change is exacerbating events such as floods and droughts, and trends including sea-level rise, leading to failures in sanitation technologies, increased public health risks and environmental pollution. To reduce these risks, it is crucial to incorporate climate resilience into sanitation technology designs. In this study, we reviewed academic and selected grey literature and identified 25 design features that can contribute to the technology’s resilience to an increasingly volatile and extreme climate. Design features that were conceptually similar were collated into seven categories. These categories included: (i) avoid exposure to hazards, (ii) withstand exposure to hazards, (iii) enable flexibility, (iv) contain failures, (v) limit consequences of complete failure, (vi) facilitate fast recovery and (vii) features that provide resilience benefits beyond technological resilience. In this paper we define the categories and design features, and provide examples of each feature in practice. We also outline how the resilience design features can support sanitation designers and implementers to critique the climate resilience of sanitation technology, and prompt more resilient designs of sanitation technology. [ABSTRACT FROM AUTHOR]

Published

2024

27. Application of Artificial Neural Networks for Recovery of Cu from Electronic Waste by Dynamic Acid Leaching: A Sustainable Approach.

Author

Ordaz-Oliver, Mario, Jiménez-Muñoz, Edith, Gutiérrez-Moreno, Evelin, Borja-Soto, Carlos E., Ordaz, Patricio, and Montiel-Hernández, Justo F.

Abstract

Nowadays, the recycling of metals from electrical and electronic waste is of great relevance due to its direct and indirect impact on environmental, social, and economic fields. Therefore, this study, conducted at the laboratory level, focuses on the recovery of copper from printed circuit boards through dynamic acid leaching in an H2SO4-O2 system, with the stirring rate controlled as the main parameter. Initially, the metallic pins were characterized by SEM-EDS, revealing that they consist of 7.56 wt% of copper, the predominant element serving as the base material. A thin gold film (79 wt%) is deposited on the copper to enhance its electrical conduction properties. In the subsequent leaching step, a random sample of 10 g was taken in a 500 mL volume, with an acid concentration of 0.03 M. The system was heated to 298.15 K under an oxygen partial pressure of 101.3 kPa. The stirring rate was varied from 450 to 1000 rpm, resulting in a maximum copper concentration of 645.294 ppm in the solution. The experimental constants were calculated for low (0–60 min) and high (60–240 min) chemical attack times, yielding ranges of 0.026 to 0.923 and 0.019 to 2.577 min− 1, respectively. On the other hand, one of the main outcomes of this research lies in the implementation of an artificial neural network to intelligently model the experimental process. It exhibited a mean squared error, correlation coefficient, and determination coefficient of 0.99690. Artificial neural networks emerge as an exceptional tool in predicting hydrometallurgical processes. This innovative application not only optimizes copper recovery but also ensures a cost-effective and environmentally friendly management of electronic waste. In the same way, it is possible to generate models of problems through learning. For all the aforementioned reasons, in the present work, an artificial neural network is developed to predict the dissolution of Cu in an electronic waste leaching process, considering the stirring rate as a key factor. Highlights: • Electronic waste as secondary source of precious and non-precious metals. • Copper is obtained from recycled computer printed circuit boards through an environmentally friendly chemical process. • Artificial neural networks enable design and fault finding in complex systems by validating, aggregating and analyzing data. • Application of an artificial neural network for processing, identification and modeling of dynamic acid leaching systems. • A novel combined hydrometallurgical and artificial neural network process for the recovery of copper from electronic waste. [ABSTRACT FROM AUTHOR]

Published

2024

28. سنجش و رتبه بندی میزان پایداری محلات شهر بندر ماهشهر از منظر شاخصهای شهر سالم با استفاده از تکنیک ایداس.

Author

مهدی همتی, صادق بشارتی فر, and محسن آقائی جوبنی

Abstract

The standard of health is considered to be a fundamental human right worldwide. Currently, the healthy city approach is widely recognized as a prominent method in urban and rural studies, as well as on a national level. This particular study aimed to analyze the stability of neighborhoods in the city of Bandar Mahshahr, focusing on healthy city indicators across three key components: economic, social, and environmental. To evaluate and assess these indicators, a total of 22 sub-indicators were derived from 2016 statistics pertaining to different neighborhoods in Bandar Mahshahr. The T-Test was employed in the SPSS software to gauge the overall stability of the aforementioned indicators. Subsequently, the weights obtained through the critical method and Ida's technique in the GIS environment were used to rank and categorize neighborhoods based on their integrated index of healthy city indicators. Lastly, the path analysis model in PLS software was utilized to identify and measure the most influential factors related to sustainability in Mahshahr city neighborhoods. The findings reveal that, out of the 35 neighborhoods examined, only neighborhoods 1, 2, 6, and 11 demonstrate a stable and developed condition in terms of possessing healthy city indicators. Conversely, the remaining 31 neighborhoods are characterized by deprivation and underdevelopment, thus indicating an unfavorable situation and a significant discrepancy from the desired standards of a healthy city in the port city of Mahshahr. [ABSTRACT FROM AUTHOR]

Published

2024

29. Unlocking the Potential of Nanocellulose: Transforming Cellulose Into a Sustainable Resource for Innovative Applications.

Author

Mavlankar, Guruprasad R., Bhatu, Minakshi N., Baikar, Prajakta P., and Patil, Shubhangi P.

Subjects

*SUSTAINABLE development, *EVIDENCE gaps, *EXTRACTION techniques, *ENVIRONMENTAL remediation, *CELLULOSE

Abstract

Since cellulose is the most common biopolymer in the world, there has been a lot of interest in its nanoscale version called nanocellulose due to the growing demand for sustainable products. To validate nanocellulose as a key component in the shift to a bio‐based economy, this review provides a thorough and critical assessment of the valorization of cellulose into nanocellulose, highlighting its unique properties, cutting‐edge extraction methods, surface modifications, and multiple applications. The study thoroughly compares nanocellulose with other natural and synthetic polymers, in contrast to earlier research, emphasizing the latter's inferior mechanical qualities, biocompatibility, and adaptability. In addition, we discuss recent developments in surface modification and extraction techniques that improve the performance of nanocellulose in high‐impact applications like medication administration, electronics, packaging, and environmental remediation. This analysis demonstrates the economic and sustainability potential of nanocellulose and suggests strategic options for future research by summarizing recent advances and identifying research gaps. Our study shows that turning cellulose into nanocellulose is valuable not just as a research project but also as a critical first step in creating long‐lasting materials to deal with the pressing issues of the twenty‐first century. [ABSTRACT FROM AUTHOR]

Published

2024

30. Cellulose‐Based Dual‐Network Conductive Hydrogel with Exceptional Adhesion.

Author

Shi, Haoran, Huo, Huanxin, Yang, Hongxing, Li, Hongshan, Shen, Jingjie, Wan, Jianyong, Du, Guanben, and Yang, Long

Subjects

*ELECTRIC conductivity, *HYDROXYL group, *PERMEABILITY, *CELLULOSE, *POLYMERS, *HYDROGELS

Abstract

Cellulose consists of a natural, rigid polymer that is widely used to improve the mechanical and water‐holding properties of hydrogels. However, its abundant hydroxyl groups make it highly absorbent to free water, leading to swelling behavior. This increased free water content will also decrease mechanical and adhesive performance. In this study, cellulose is successfully hydrophobically modified to reduce its absorption of free water. Gelatin is then cross‐linked with cellulose through a Schiff‐base reaction, resulting in increased bound water content. This significantly enhances resistance to swelling and permeability, and improves the freeze–thaw stability of the hydrogel. Due to its internal hydrophobicity, water molecules can quickly penetrate into the interior, reducing their residence time on the hydrogel surface. This allows the hydrogel to maintain high adhesion in natural environments, achieving an adhesion strength of up to 3.0 MPa on wood and bamboo‐based materials. The hydrogel can retain its adhesive properties even after prolonged exposure to a humid environment. Additionally, Na+ ions enhance the electrical conductivity and sensitivity of the hydrogel (gauge factor (GF) = 1.51), demonstrating its potential applications in flexible sensing. [ABSTRACT FROM AUTHOR]

Published

2024

31. From Lithium‐Ion to Sodium‐Ion Batteries for Sustainable Energy Storage: A Comprehensive Review on Recent Research Advancements and Perspectives.

Author

Chandra Bhowmik, Konok, Rahman, Md. Arafat, Billah, Md. Muktadir, and Paul, Aoyon

Subjects

*CLEAN energy, *RENEWABLE energy sources, *ELECTRIC power distribution grids, *ENERGY levels (Quantum mechanics), *ENERGY density

Abstract

A significant turning point in the search for environmentally friendly energy storage options is the switch from lithium‐ion to sodium‐ion batteries. This review highlights the potential of sodium‐ion battery (NIB) technology to address the environmental and financial issues related to lithium‐ion systems by thoroughly examining recent developments in NIB technology. It is noted that sodium is more abundant and less expensive than lithium, NIBs have several benefits that could drastically lower the total cost of energy storage systems. In addition, this study examines new findings in important fields including electrolyte compositions, electrode materials, and battery performances of lithium‐ion batteries (LIBs) and NIBs. The article highlights advancements in anode and cathode materials, with a focus on improving energy density, cycle stability, and rate capability of both LIBs and NIBs. The review also covers the advances made in comprehending the electrochemical mechanisms and special difficulties associated with NIBs, such as material degradation and sodium ion diffusion. Future research directions are discussed, with an emphasis on enhancing the scalability and commercial viability of sodium‐ion technology over lithium on Electric Grid. Considering sustainability objectives and the integration of renewable energy sources, the review's assessment of sodium‐ion batteries’ possible effects on the future state of energy storage is included in its conclusion. [ABSTRACT FROM AUTHOR]

Published

2024

32. Sustainable innovations and future prospects in construction material: a review on natural fiber-reinforced cement composites.

Author

Singh, Anand and Yadav, Bikarama Prasad

Subjects

CEMENT composites, PLANT fibers, FIBER cement, ENVIRONMENTAL responsibility, CONCRETE durability, NATURAL fibers

Abstract

There is a growing trend in the construction industry to adopt environmentally friendly practices, and innovative materials are becoming increasingly popular. Within the scope of this paper, the potential of natural fiber-reinforced cement composites (NFRCs) as an environmentally friendly building material is examined. This work introduces plant fiber aspects such as micromorphology, primary components, physical and mechanical properties, chemical components, thermal properties, and degradation mechanisms in cement composites. It explores how plant fibers affect concrete's mechanical performance, durability, and thermal qualities. It is responsible for increasing permeability and decreasing durability in concrete material because plant fibers have porosity and a weak interface. The purpose of this in-depth investigation is to investigate the features, sustainability (social, environmental, and economical) performance, and applications of NFRCs, with a particular focus on environmentally responsible innovation and potential future applications. The exhaustive study also addresses the difficulties associated with attaining the highest possible level of compatibility between fibers and matrixes. The physical and chemical treatments of natural fibers in cement components give more resistance to aging by reducing water absorption and increasing roughness at the surface. It is also possible to reduce the effect of alkalinity of the cement mixture through optimization of the binder component and curing regimes, which retard the breakdown of natural fibers. The purpose of this study is to present a summary of existing research, with a particular emphasis on the benefits, drawbacks, and prospective ways in which NFRCs could potentially improve throughout the construction industry in the future. [ABSTRACT FROM AUTHOR]

Published

2024

33. Combining Fish and Crustacean Byproducts as Primary Ingredients in Pelleted Aquafeed: The Effect of Byproduct Type on Pellet Physical Properties.

Author

Chouljenko, Alexander, Mirtalebi, Sanazsadat, Hopper, Stewart, Santos, Fernanda, Bolton, Greg, and Bailey, Christyn

Subjects

*STARCH, *FISH meal, *ATLANTIC salmon, *PELLETIZING, *CRUSTACEA

Abstract

Over the past three decades, global aquaculture production has significantly increased, emphasizing the need for sustainable and cost‐effective alternatives to traditional fish meal in aquafeed. This study's objective was to elucidate the impact of utilizing a combination of fish and crustacean byproducts—namely, smoked salmon (Salmo salar) skins (SSs), smoked salmon trimmings (STs), and shrimp (Litopenaeus setiferus) heads (SHs)—as primary ingredients in pelleted aquafeed. Importantly, this work focuses on nonextruded pellets, where the physical properties are more influenced by ingredient composition compared to extruded pellets. The tested formulations were not nutritionally comprehensive for any specific commercial aquaculture species, as the goal of this study was to highlight the effect of the byproducts on pellet physical integrity. SH and de‐oiled solid fractions of SS and ST were dehydrated for 24 h at 60°C, ground into dried powders, and formulated into six samples at a 1:1 (w/w) ratio and one sample at a 1:1:1 ratio. Potato starch (80 g/kg) was added to each sample, along with varying deionized (DI) water amounts before steam conditioning, pelletizing, and drying. Analyses included pellet nutrient composition, floatability, durability, water stability, bulk density, water absorption index (WAI), and water solubility index (WSI). Results revealed that SS pellets exhibited 97% floatability at 1 min, decreasing to 70% at 60 min. SS and ST combinations showed slow sinking behavior, while all other formulations sank quickly. Pellets containing SH had lower water stability (65.65% ± 4.44% to 0.05% ± 0.07%), in contrast to over 92% for SS and ST pellets. Durability ranged from 98.48% ± 0.37% for SS to 75.29% ± 5.82% for SH and ST combinations, further underlining the significant impact of byproduct choice on pellet performance. Overall, the inclusion of SS or ST and their combination as primary ingredients for pelleted aquafeed produced pellets that scored well on important quality parameters, while pellets containing SH performed poorly. This information may be used in the development of nutritionally comprehensive nonextruded aquafeeds containing SS and/or ST to conduct feeding trials with commercially relevant species. [ABSTRACT FROM AUTHOR]

Published

2024

34. Recent Advances in the Field of Shape-Memory Polymer from Bio-Based Precursors: Review and Perspective.

Author

Jamaludin, Farah Hidayah, Nordin, Nur Syahirra, Li, Xinge, Wong, Jie-Wei, Lim, Zhixian, Wang, Lei, Ma, Chunxin, Zhao, Qian, Wong, Tuck-Whye, Neffe, Axel T., and Li, Tiefeng

Subjects

*SHAPE memory effect, *PETROLEUM supply & demand, *PETROLEUM reserves, *RESOURCE exploitation, *CHEMICAL precursors

Abstract

AbstractShape-memory polymers (SMPs) are predominantly derived from nonrenewable resources due to their low production cost, wide availability, and refined techniques for processing and tailoring SMP properties. However, the heavy reliance on these nonrenewable resources poses significant concerns regarding resource depletion and the long-term sustainability of the technology. As petroleum-based resources, which have traditionally fueled the polymer industry, become increasingly scarce, it is imperative to develop bio-based SMPs. This shift is essential not just for resource conservation but to ensure the continued viability and sustainability of SMP technology in the face of dwindling petroleum supplies. This review provides an overview of bio-based SMPs, which are synthesized from renewable precursors or through chemical variation and functionalization of biopolymers. The molecular mechanism and design strategy for the shape-memory effect (SME), syntheses, unique characteristics and shape-memory performance for these bio-based SMPs are covered. Furthermore, this review highlights novel insights and proposes promising directions for the development of sustainable SMPs with comparable performance to their nonrenewable counterparts. By focusing on bio-based alternatives, this work aims to motivate the exploration and advancement of next-generation sustainable SMPs. [ABSTRACT FROM AUTHOR]

Published

2024

35. Upcycling Iron Oxide Scale Slag into a High‐Performance, Sustainable Ozone Catalyst.

Author

Du, Qing, Fang, Yanfen, Lan, Xing, Gu, Cheng, Huang, Di, Shen, Zhou, Zhu, Zhi, Chen, Chuncheng, and Yan, Yan

Subjects

*SUSTAINABILITY, *CHEMICAL oxygen demand, *INDUSTRIAL wastes, *FERRIC oxide, *WATER purification

Abstract

Upcycling iron slag into a monolithic catalyst has led to low‐cost heterogeneous catalytic ozonation (HCO) strategies for water treatment. The primary industrial challenges are the low chemical oxygen demand (COD) reduction rate in treating authentic wastewater and difficulties sustaining close‐loop reaction cycles. In this study, we present a monolithic catalyst transformed from low‐cost iron oxide scale slag (IOSM) for highly efficient, sustainable ozone catalysis. The IOSM, constituted of 59.70 % Fe2O3 and 40.30 % Fe3O4, effectively decomposes ozone into superoxide radicals (⋅O2−) through a close‐loop cyclic reaction facilitated by interfacial charge transfer. This mechanism enables super‐fast degradation of 100 mg L−1 tetracycline at ozone concentrations below 1.00 mg L−1 in just four minutes, with the iron leaching merely at 59 μg L−1 after 10 cycles. In tests with authentic antibiotic wastewater, the IOSM‐based HCO system achieves a record‐breaking 81.70 % COD reduction within two hours. This research underscores the potential of upcycling industrial waste into highly effective ozone catalysts for sustainable practices in wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2024

36. Composting as a Sustainable Solution for the Management of Plant Biomass Contaminated with Hg and As from Puddles Generated by Small-Scale Gold Mining in the Municipality of Unión Panamericana, Colombian Pacific.

Author

Rengifo-Mosquera, Gysela, Salas-Moreno, Manuel, Gutierréz-Palacios, Harry, Palacios-Torres, Yuber, Romaña-Palacios, Allien, and Marrugo-Negrete, José

Abstract

ASGM in the Chocó region (Colombian Pacific) has generated abandoned puddles with concentrations of Hg; however, these sites can generate ecosystem services from contaminated biomass with a circular economy approach. (1) Background: The plant biomass contaminated with Hg from these puddles could be used to produce compost as a bioremediation strategy and as an alternative to generate ecosystem resources (organic fertilizer) with nature-based solutions, representing a circular economy approach and sustainable management of contaminated biomass. (2) Methods: Six treatments were established to produce compost; closed-system plastic composters were used, with a capacity of 15 kg of biomass and organic waste, consisting of contaminated and uncontaminated biomass of macrophytes with Hg and fruit and vegetable waste (fruit and vegetable waste, pruning waste, and poultry manure). The concentrations of As and total and bioavailable Hg were monitored during the composting process by atomic absorption spectroscopy and so were properties such as pH; electrical conductivity; temperature; CO, TN, S, and SiO2 contents; and C/N ratio. (3) Conclusions: The concentrations of bioavailable Hg during the composting process were between 658.1 and 1.2 µg/kg, decreasing in the following order: T-2 > T-3 > T-1 > C-3 > C-2 > C-1. Composting in the treatments was shown to be an efficient bioremediation technique, as all of the treatments reduced the bioavailability of Hg to below 1.5%, and the physicochemical properties of pH (r: −0.3675; p < 0.007) and %S content (r: −0.6303; p < 0.0025) showed a significant moderate negative correlation with bioavailable Hg concentrations, playing a crucial role in reducing the bioavailability of Hg during the purification process of composting. The results show that all treatments significantly reduced Hg bioavailability below 1.5%; however, T-2 proportionally showed the highest reductions during the process. Compost production was proven to be a sustainable strategy for the management of biomass contaminated with mercury, which is very important for recovering ecosystem services in communities. [ABSTRACT FROM AUTHOR]

Published

2024

37. ChatGPT-Supported Education in Primary Schools: The Potential of ChatGPT for Sustainable Practices.

Author

Uğraş, Hilal, Uğraş, Mustafa, Papadakis, Stamatios, and Kalogiannakis, Michail

Abstract

This study aims to evaluate the potential of using ChatGPT at the primary school level from the teachers' perspective within a sustainability framework. The research was conducted as a qualitative case study involving 40 primary school teachers in Turkey during the 2023–2024 academic year, all of whom had no prior experience with ChatGPT. Data collection tools included semi-structured interview forms and researcher diaries developed by the researchers. The data obtained were analysed using content analysis. The findings indicate that most primary school teachers believe ChatGPT is suitable for primary education and can contribute to Sustainable Development Goal (SDG) 4. Additionally, teachers noted that ChatGPT enriches the teaching process and is user-friendly. These findings suggest potential contributions to SDG 4.1 and SDG 4.2. However, concerns were raised regarding ChatGPT's potential to provide false information, which may negatively impact SDG 4.7. The study also identified that ChatGPT is particularly suitable for mathematics, Turkish, and English courses. This study's main contribution is that it shows how ChatGPT can help sustainable practices in primary education by getting teachers more involved and meeting specific curriculum needs. This gives us useful information for incorporating AI tools into education that is in line with SDG 4. It is recommended that training programs about ChatGPT and similar AI-supported tools be organised for teachers and parents. [ABSTRACT FROM AUTHOR]

Published

2024

38. Influence of Microbial Treatments on Vine Growth and Must Quality: Preliminary Results.

Author

Mercanti, Nicola, Macaluso, Monica, Pieracci, Ylenia, Bertonelli, Leonardo, Flamini, Guido, and Zinnai, Angela

Abstract

Microorganisms play a crucial role in addressing the challenges related to the increasing detrimental effects of intensive agriculture in vineyards by contributing to various aspects, from maintaining soil health and vine vitality to influencing fermentation and the overall wine features. Among microorganisms, mycorrhizal fungi are widely distributed in both natural and agricultural ecosystems, and their mutually beneficial relationship with most terrestrial plants provides valuable ecological benefits. Nowadays, the wine industry is increasingly moving toward the production of organic wines, highlighting the need for novel and healthier strategies that prioritize both the consumer well-being and the quality of the final wine product. Following our previous study in collaboration with the Bioma SA Company (Quartino, Switzerland), the investigation was continued by extending the organic practice to the cultivation. The present work, indeed, aimed to evaluate the influence of the treatment with mycorrhizal fungi on the metabolism of "Sangiovese" grapevines. In particular, the chemical parameters, including alcohol content, pH, acidity, phenolic composition, and sulfur dioxide, were assessed on the must, while the analysis of the volatile emission was conducted both on whole and pressed grapes, on must, as well as on the grape skins. To the best of our knowledge, this is the first study investigating the mycorrhizal fungi association effect on the quality of "Sangiovese" grapes and, further, its effect on the VOCs emission. [ABSTRACT FROM AUTHOR]

Published

2024

39. A comprehensive review on biochar for electrochemical energy storage applications: an emerging sustainable technology.

Author

Prabakar, Ponnusamy, Mustafa Mert, Koc, Muruganandam, Logananthan, and Sivagami, Krishnasamy

Subjects

ELECTRIC conductivity, ENERGY development, ENERGY consumption, BIOCHAR, CHEMICAL stability

Abstract

Energy is an essential factor in many activities. The need to generate adequate energy from various sources is becoming increasingly crucial to meeting the rising needs of the world's population. Nevertheless, energy storage plays a vital role in meeting the energy demand, notably since affordable yet eco-friendly sources should meet it. Several recommendations were provided to overcome this limitation, with an increasing emphasis on energy sources. However, ecologically sustainable, and effective energy storage systems are the primary focus. Carbonaceous substances produced by pyrolyzing biomass, such as biochar, have recently gained attention as a sustainable material with the potential to be used in electrochemical energy storage technologies. It is an attractive option for electrode materials in supercapacitors, batteries, and hydrogen storage devices due to its abundant availability and distinct physicochemical characteristics, which include, excellent electric conductivity, tuneable surface functional groups, a densely porous structure, a high surface area, porosity, chemical stability, and pore volume. This review addresses the electrochemical performance, production, and characterization of materials based on biochar for energy storage developments. It investigates the choice of feedstock, various preparation routes, various controlling parameters for producing biochar, the biochar activation process, and post-treatment techniques that affect the electrochemical and structural characteristics of biochar for energy storage device fabrication in detail. Additionally, it reveals that recent developments in biochar modification methods like doping, activation, and hybridization have improved the material's capacity for energy storage. Furthermore, an in-depth discussion on the environmental impacts of biochar-based energy storage devices is elaborated, along with the opportunities and challenges presented in this study. [ABSTRACT FROM AUTHOR]

Published

2024

40. The current state of research and potential applications of insects for resource recovery and aquaculture feed.

Author

Singh, Soibam Khogen, Pawar, Lokesh, Thomas, Akhil Joe, Debbarma, Reshmi, Biswas, Pradyut, Ningombam, Arati, Devi, Ayam Gangarani, Waikhom, Gusheinzed, Patel, Arun Bhai, Meena, Dharmendra Kumar, and Chakraborty, Gunimala

Abstract

Concerns about fishmeal use and its ecological footprints must be addressed for the aquaculture industry to move on as a sustainable food production sector. Through recent research outcomes, the insect-based meals in fish diets have promise and harnessed promises for commercial applications. In this midst, the efficiency of the selected insects in valorizing biological waste, as well as the nutritional profile of the harvested insects for use in fish diets, will be the driving forces behind such an approach. More extensive research has been published on the suitability of the waste substrate, the nutritional profiling of the meals, the level of substitution, the effects on growth, the immune physiology, and the flesh quality of the animals. Previously, there are only a few reviews available in insect protein applications in aqua feed that focused particularly on the nutritional quality and substitution levels. Considering the dearth of available work, the goal of this review is to provide a more comprehensive account of the resource recovery potential of insects and its derivatives, with a special emphasis on quality as determined by substrate used and processing techniques. Suggestions and policy implications for a sustainable approach to achieving a circular bio-economy of insect farming and its application in aquaculture are discussed for progression and advancement of the existing state of the art. [ABSTRACT FROM AUTHOR]

Published

2024

41. The potential role of safety, health, environmental quality (SHEQ) management systems in sustainable landfill management in Zimbabwe-a review.

Author

Jerie, Steven, Shabani, Tapiwa, Shabani, Takunda, and Chireshe, Amato

Abstract

Solid waste management is a demanding issue globally. Zimbabwe is among nations in Southern Africa that faces political and socio-economic challenges in solid waste management including landfill management. However, proper landfill management is critical to minimise environmental health risks of solid waste and Zimbabwe is no exception. Therefore, this paper focuses on sustainable landfill management in Zimbabwe based on SHEQ management systems by reviewing existing literature. Literature denotes that generation of solid waste destined for landfills accelerate due to increase of population, urbanisation and diseases. Hazardous and non-hazardous solid waste from institutions, households and industries is transported by municipalities to landfills. Solid waste is disposed and left uncovered or compacted on improperly engineered landfills devoid of gas and leachate control systems. Landfills in Zimbabwe are far from sustainable since they cause negative impacts to terrestrial, aquatic and atmospheric ecosystems and human health is not spared as hazardous wastes are found at landfills. Nevertheless, literature reveals that SHEQ management systems are vital to attain sustainability in the realm of landfill management. SHEQ management systems contribute to continuous improvement of landfills management strategies through application of the Deming cycle. SHEQ management systems that support protection of workers and waste workers are included. The system supports inclusion of various stakeholders, correct documentation of data and conformity to national and international legislation, policies and standards when dealing with waste. SHEQ management systems support recycling, reuse and recovery processes during waste management. The review concludes that SHEQ management systems are necessary to reach sustainable landfill management in Zimbabwe. [ABSTRACT FROM AUTHOR]

Published

2024

42. Scalable solutions for global health: the SalivaDirect model.

Author

Wyllie, Anne L., Choate, Brittany, Burke, Laura, and Ali, Yasmine

Subjects

REVERSE transcriptase polymerase chain reaction, SUPPLY chain disruptions, COVID-19 pandemic, GOVERNMENT laboratories, PATHOLOGICAL laboratories

Abstract

The COVID-19 pandemic caught the world unprepared. Large-scale testing efforts were urgently needed, and diagnostic strategies had to rapidly evolve in response to unprecedented worldwide demand. However, the rollout of diagnostic testing and screening for SARS-CoV-2 was often impeded by logistical challenges, including regulatory delays, workforce shortages, laboratory bottlenecks, and supply chain disruptions. Recognizing these hurdles early on, we developed a testing approach that supported frequent, repeat testing, particularly as communities reopened. We hypothesized and experimentally demonstrated that saliva was a suitable specimen for the detection of SARS-CoV-2. This finding was advanced into the development of open-source, extraction-free reverse transcription polymerase chain reaction protocols using readily available, "off-the-shelf" reagents and equipment for the direct detection of SARS-CoV-2 in saliva ("SalivaDirect"). Working with the US Food and Drug Administration (FDA), we established a novel regulatory framework wherein the FDA granted Emergency Use Authorization to Yale University to offer the SalivaDirect test protocol to high-complexity diagnostic laboratories (as designated by the Clinical Laboratory Improvement Amendments) with quality oversight provided by Yale. This grew into a network of more than 200 labs across the United States that, as of May 2024, resulted in over 6.5 million SARS-CoV-2 tests. By making the protocol flexible and open-source, laboratories were able to rapidly and economically scale testing using a simple, self-collected saliva specimen. Additionally, fostering a national network of laboratories enabled real-time exchanges, problem solving, and the development of community best practices. Preparing for the next pandemic, or simply the next seasonal epidemic, the SalivaDirect model of deploying a readily available, expandable solution and accompanying network provides a proven method for the successful implementation of pathogen testing in the United States and globally. [ABSTRACT FROM AUTHOR]

Published

2024

43. Advancement in Heterogeneous Catalysts for the Synthesis of Benzothiazole Derivatives.

Author

Kohli, Sahil, Rawat, Srishti, Rathee, Garima, Nagar, Shailly, Rawat, Manish, and Saraswat, Vandana

Subjects

*CATALYST selectivity, *HETEROGENEOUS catalysis, *BENZOTHIAZOLE derivatives, *CATALYTIC activity, *MATERIALS science, *HETEROGENEOUS catalysts

Abstract

Benzothiazole derivatives, a class of heterocyclic compounds, hold significant relevance in medicinal chemistry, materials science, and agrochemicals due to their diverse biological activities and applications. The conventional synthetic routes often involve harsh conditions and generate significant waste, prompting the exploration of more sustainable approaches. This work offers a comprehensive analysis of the developments in the use of heterogeneous catalysts for the production of benzothiazole derivatives, covering research from 2013 onward. Compared to traditional techniques, heterogeneous catalysts provide improved sustainability, efficiency, and recyclability. The review covers many heterogeneous catalysts and discusses their selectivity, recyclability, and catalytic activity. The utilization of heterogeneous catalysts is noteworthy as it facilitates the synthesis process's overall sustainability by allowing for milder reaction conditions, less environmental effect, and easier catalyst separation and recovery. The potential of heterogeneous catalysis in promoting the production of benzothiazole derivatives and satisfying the increasing need for these substances in various industrial applications is also highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

44. Lactation curves for milk, fat and protein in dairy cows under regenerative versus conventional farming practices.

Author

Moreno-Gónzalez, Yaliska, López-Villalobos, Nicolas, Donaghy, Danny, López, Ignacio F., MacGibbon, Alastair, and Holroyd, Stephen E.

Subjects

*MILK yield, *ORGANIC farming, *AGRICULTURE, *ROTATIONAL grazing, *SUSTAINABILITY

Abstract

Regenerative agriculture aims to utilise more diverse pasture species and enhance animal performance through sustainable soil management and pasture quality. This study evaluated the influence of regenerative and conventional farming on dairy cow performance and milk production under different pasture mixes and management strategies. Monthly herd test records were used to model individual lactation curves for daily milk, fat, and protein yield for the 2022–2023 season using random regression with third-order orthogonal polynomials. Total yields were calculated from predicted daily yield. Treatments were SPCM: Standard pasture under conventional management, DPCM: Diverse pasture mix under conventional management, and DPRM: Diverse pasture mix under regenerative management. Total milk yield was similar across treatments, averaging 3370 kg (SPCM), 3649 kg (DPCM), and 3626 kg (DPRM) for the 2022–2023 season. No significant differences were observed in fat, protein, milk solids yield, or milk composition. Cows on diverse pastures, regardless of management approach, showed heavier liveweights than those on standard pastures. DPCM and DPRM cows averaged 474 kg, significantly greater than SPCM cows at 464 kg (P < 0.0001), likely due to longer grazing rotation and higher post-graze mass. These findings suggest that pasture species diversity, regardless the management, enhances liveweight without affecting milk composition. [ABSTRACT FROM AUTHOR]

Published

2024

45. Reusable glassware for routine cell culture—a sterile, sustainable and affordable alternative to single-use plastics.

Author

Trusler, Emily C., Davies, Merlin, Spurrier, Benjamin, and Gould, Samantha J.

Subjects

SINGLE-use plastics, SUSTAINABILITY, TISSUE culture, ENVIRONMENTAL economics, RESEARCH personnel, CELL culture

Abstract

Cell culture is a cornerstone of in vitro biological research. Whilst glassware was once commonplace in tissue culture facilities, in recent decades laboratories have moved towards a heavy reliance on single use plastics for routine procedures. Single use plastics allow for accessible, sterile, and often affordable equipment that comes at a high environmental cost. We developed a glassware preparation and cleaning process that allowed the comparison of "traditional" plastic-heavy, and adapted "sustainable," cell culture practices, to empirically compare the sterility, viability, and proliferative capacity of cells cultured with differing techniques, by observing IL-6 production, morphology, and proliferation rate of cultured human pulmonary fibroblast cells. During which, we calculated the carbon footprint of traditional versus sustainable methods. We additionally endeavored to provide a realistic overview of the steps required to transition to more sustainable cell culture practices and make suggestions to ease the cost, labor, and time required to uptake similar practices in other laboratories. Cells cultured using reusable glassware did not show signs of contamination or stress compared to cells grown solely with plasticware, and glassware baked at 180°C for 120 min was sufficiently decontaminated and depyrogenated for culturing these cells. An individual researcher adopting the same methodology could reduce their carbon footprint by 105.92 kg of Carbon dioxide equivalent (CO2e) whilst also saving money (£408.78) over a 10-year period. We predict that these benefits would be greater if more researchers were to uptake these adapted practices. We intend for this paper to reassure researchers that viable, sterile, and sustainable routine cell culture can be achieved with little upfront cost to the researcher, with the prospective benefit of greatly reducing the cost to the environment. We additionally hope that increased uptake, and thus demand of more sustainable practices, encourages suppliers, policy makers, and funding bodies to make sustainable practices more accessible to individual researchers and institutions worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

46. Editorial: Trends and challenges in plant biomonitoring, bioremediation and biomining.

Author

Kalendar, Ruslan, Levei, Erika, Cadar, Oana, and Senila, Marin

Subjects

HYPERACCUMULATOR plants, RENEWABLE natural resources, AGRICULTURE, NORMALIZED difference vegetation index, BIOINDICATORS, LOQUAT, DESERTIFICATION

Abstract

The editorial discusses the importance of plant biomonitoring, bioremediation, and biomining in addressing environmental pollution. It highlights the use of hyperaccumulator plants for bioremediation and the challenges in developing ready-to-use technologies. The research also explores the role of different plant species in environmental recovery and the potential of lichens as biological indicators of air pollution. The study emphasizes the need for further investigations to enhance pollution monitoring and develop cost-effective bioremediation methods. [Extracted from the article]

Published

2024

47. Review of Bio-Inspired Green Synthesis of Titanium Dioxide for Photocatalytic Applications.

Author

Mulay, Manasi R., Patwardhan, Siddharth V., and Martsinovich, Natalia

Abstract

Titanium dioxide (TiO2) is an important photocatalyst that is widely studied for environmental applications, especially for water treatment by degradation of pollutants. A range of methods have been developed to produce TiO2 in the form of nanoparticles and thin films. Solution-based synthesis methods offer the opportunity to tune the synthesis through a choice of reagents, additives and reaction media. In particular, the use of biomolecules, such as proteins and amino acids, as bio-inspired additives in TiO2 synthesis has grown over the last decade. This review provides a discussion of the key factors in the solution-based synthesis of titania, with a focus on bio-inspired additives and their interaction with Ti precursors. In particular, the role of bio-inspired molecular and biomolecular additives in promoting the low-temperature synthesis of titania and controlling the phase and morphology of the synthesised TiO2 is discussed, with a particular focus on the interaction of TiO2 with amino acids as model bio-inspired additives. Understanding these interactions will help address the key challenges of obtaining the crystalline TiO2 phase at low temperatures, with fast kinetics and under mild reaction conditions. We review examples of photocatalytic applications of TiO2 synthesised using bio-inspired methods and discuss the ways in which bio-inspired additives enhance photocatalytic activity of TiO2 nanomaterials. Finally, we give a perspective of the current challenges in green synthesis of TiO2, and possible solutions based on multi-criteria discovery, design and manufacturing framework. [ABSTRACT FROM AUTHOR]

Published

2024

48. Starchy Films as a Sustainable Alternative in Food Industry: Current Research and Applications.

Author

Singh, Shubhi, Gaur, Smriti, and Sharma, Nisha

Subjects

*FOOD packaging, *BIODEGRADABLE materials, *BIOPOLYMERS, *MOLECULAR interactions, *RESEARCH personnel

Abstract

The overconsumption of nonbiodegradable materials, particularly plastics, has had a significant and detrimental impact on the environment. Advancements in research sector have led to the development of biodegradable materials, namely starch‐based biodegradable films, which have the potential to reduce this environmental impact. Starch is a unique biopolymer with distinctive chemical, physical, mechanical, thermal, and optical properties that make it an attractive alternative to nonbiodegradable and harmful materials. This review paper comprehensively discusses the properties of starch and the techniques involved in transforming native starch into starch‐based films. Further a broad overview of recent research on combining starch with several composites to enhance the physicochemical properties has been discussed herein. In addition, this paper also discusses recent insights into the development of starch‐based composite films and their potential applications in food packaging systems. Future studies must focus on the development of starch composites that strike a balance between different versatile properties of the biopolymer. Additionally, a critical examination of the interactions at the molecular level will help to expand our understanding of this sustainable biopolymer. Ultimately, the findings of this review paper will provide valuable insights for researchers and industry professionals interested in the development and utilization of starch‐based biodegradable films. [ABSTRACT FROM AUTHOR]

Published

2024

49. Production of Tomato (Solanum lycopersicum L.) in Different Nutrient Regime.

Author

Manta, Shreyasee, Choudhuri, Partha, and Majumdar, Ranodip

Subjects

*SUSTAINABILITY, *ALLUVIAL plains, *VITAMIN C, *BLOCK designs, *LYCOPENE, *TOMATOES

Abstract

A field level investigation was during the month of November, 2021-22 to observe integrated effect of different nutrient sources on growth, yield, quality and economics of tomato. The field work was conducted in Randomized Block Design consisting of eight different nutrient combinations like-Treatment-1: (control), Treatment-2: (100% Recommended Dose of Fertilizer), Treatment-3: [100% Recommended Dose of Fertilizer+15 t Farm yard manure-ha ], Treatment-4 [75% Recommended Dose of Fertilizer+7.5 t ha-1 Farm Yard Manure+Biofertilizer (Phosphate Solubilizing Bacteria+Azotobacter)], Treatment-5 [75% Recommended Dose of Fertilizer+4 t ha-1 vermicompost+Biofertilizers (Phosphate Solubilizing Bacteria+Azotobacter), Treatment-6 [75% Recommended Dose of Fertilizer+2 t ha-1 vermicompost+Biofertilzers (Phosphate Solubilizing Bacteria+Azotobacter)], Treatment-7 [75% Recommended Dose of Fertilizer+0.5 t ha-1 Neem cake+Biofertilizers (Phosphate Solubilizing Bacteria+Azotobacter)], Treatment-8[75% Recommended Dose of Fertilizer+2 t ha-1 Mustardcake+Biofertilizers (Phosphate Solubilizing Bacteria+Azotobacter)]. Combined application of 75% Recommended Dose of Fertilizer+2 t ha-1 vermicompost+Biofertilzers (Phosphate Solubilizing Bacteria+Azotobacter) recorded significantly maximum values for the vegetative parameters. This treatment also recorded maximum values for number of fruits plant-1 (45.89), fruit weight (35.62 g), yield plot-1 (40 kg) and yield ha-1 (70.08 t) and benefit:cost ratio (2.8). Maximum TSS (4.8°Brix), ascorbic acid (24.05 mg 100 g-1) and lycopene content (4.69 mg 100 g-1) were noticed with 75% Recommended Dose of Fertilizer+4 t ha-1 vermicompost+Biofertilizers (Phosphate Solubilizing Bacteria+Azotobacter). Experiment data showed that combination of 2t ha-1 of vermicompost and mixture of phosphate solubilizing bacteria, Azotobacter along with 75% of recommended dose of fertilizer was proved as beneficial for sustainable production of tomato in new alluvial plains of West Bengal. [ABSTRACT FROM AUTHOR]

Published

2024

50. Lycopene-Loaded Emulsions: Chitosan Versus Non-Ionic Surfactants as Stabilizers.

Author

Álvarez-García, Sonia, Couarraze, Lucie, Matos, María, and Gutiérrez, Gemma

Subjects

*NONIONIC surfactants, *HAZARDOUS substances, *CORONARY disease, *SOY oil, *BIOMEDICAL materials, *LYCOPENE, *BIODEGRADABLE materials

Abstract

Lycopene is a natural carotenoid with well-known benefits due to its antioxidant properties, including an anti-inflammatory effect in colorectal cancer and anti-angiogenic effects along with a reduction in the risk of prostate cancer and coronary heart disease. Due to their poor water solubility, photosensitivity and heat sensitivity, their incorporation in cosmetic and food matrices should be through encapsulation systems. In the present work, lycopene-loaded emulsions were prepared using two different types of stabilizers: non-ionic surfactants, testing several ratios of Tween 80 and Span 80, and chitosan, using chitosans of different viscosities and molecular weights. Soybean oil was found to be a suitable candidate for O/W emulsion preparation. Lycopene encapsulation efficiency (EE) of 70–75% and loading capacities of 0.14 mg/g were registered in stable emulsions stabilized either by non-ionic surfactants or acidified chitosans. Therefore, chitosan is a good alternative as a sustainable stabilizer to partially replace traditional synthetic ingredients with a new biodegradable, renewable and biocompatible material which could contribute to reduce the environmental impact as well as the ingestion of synthetic toxic materials by humans, decreasing their risk of suffering from chronic and complex pathologies, among which several types of cancer stand out. [ABSTRACT FROM AUTHOR]

Published

2024