A aplicação tecnológica para a promoção da sustentabilidade

Autores

DOI:

https://doi.org/10.23925/2179-3565.2022v13i1p15-31

Palavras-chave:

Nanotechnology, Waste Management, sustainable development

Resumo

Esse estudo buscou relacionar os temas nanotecnologia e sustentabilidade. O objetivo foi rastrear e apresentar a propensão da produção científica em relação à temática da nanotecnologia, bem como sua relação com a gestão de resíduos, para permear em torno dos desafios sustentáveis. Para isso, foi realizado um levantamento bibliométrico nos anos de 2016 a 2020, com auxílio do software VOSviewer, efetuada nas bases de dados da Science Direct, Scopus e Web of Science. As discussões se deram acerca dos principais autores citados em cada base, os temas mais buscados, e as relações entre os temas dentro de cada base de dados. Com relação as autorias, não foi possível identificar autores específicos, já que o este estudo se desdobrou pela utilização de clusters contendo autores que discutiram temas semelhantes dentro de cada base de dados, os quais apresentaram estudos voltados para a nanotecnologia. No que referem aos temas, nas três bases destacou-se a nanotecnologia, com maior volume de publicações no ano de 2018 na base da Web of Science. Quanto aos autores, na Science Direct destacaram-se Neeraj Dilbaghi e Ki-hyum, na Scopus Ye Wang e na Web of Science foi A. Saleh e Ki-Hyun Kim. Relacionada aos resíduos, foi observado que recentemente em todas as bases evidencia-se o tratamento das águas residuais, e nas bases Scopus e Web of Science, a nanotecnologia relaciona-se com a biodegradabilidade. No entanto, ainda existem lacunas quanto às nanotoxinas ao meio ambiente e a saúde humana, bem como de pesquisas que tratam dos temas as conjunto.

Biografia do Autor

Myller Augusto Santos Gomes, Universidade Tecnológica Federal do Paraná, Universidade Estadual do Centro-Oeste

Professor no departamento de administração da Universidade Estadual do Centro-Oeste.

Referências

Acharya, A.; Pal, P.K. Agriculture nanotechnology: Translating research outcome to field applications by influencing environmental sustainability. NanoImpact, v. 19, p. 100232, 2020.

Adeleye, A. S.; Conway, J. R.; Garner, K. L.; Huang, Y; Su, Y.; Keller, A. A. Engineered nanomaterials for water treatment and remediation: Costs, benefits, and applicability. Chemical Engineering Journal, Estados Unidos, v. 286, p. 640-662, fev. 2016.

Agboola, O. et al. Nanotechnology in wastewater and the capacity of nanotechnology for sustainability. In: Environmental Nanotechnology Volume 3. Springer, Cham, 2020. p. 1-45. Aljenbaz, A. Z.; Çağnan, Ç. Evaluation of Nanomaterials for Building Production within the Context of Sustainability. European Journal of Sustainable Development, v. 9, n. 1, p. 53-53, 2020.

Anjum, M. et al. Remediation of wastewater using various nano-materials. Arabian Journal of Chemistry, v. 12, n. 8, p. 4897-4919, 2019.

Das, B.et al. Green synthesized silver nanoparticles destroy multidrug resistant bacteria via reactive oxygen species mediated membrane damage. Arabian Journal of Chemistry, v. 10, n. 6, p. 862-876, 2017.

Duhan, J. S. et al. Nanotechnology: The new perspective in precision agriculture. Biotechnology Reports, v. 15, p. 11-23, 2017.

Engelmann, W.; Hupffer, H. M.; Hohendorff, R. V. Potential Legal Avenues for Managing the Environmental Risks of Nanotechnology. In: Sustainable Consumption. Springer, Cham, 2020. p. 479-494.

García-quintero, A.; Palencia, M. A critical analysis of environmental sustainability metrics applied to green synthesis of nanomaterials and the assessment of environmental risks associated with the nanotechnology. Science of The Total Environment, v. 793, p. 148524, 2021.

Gottardo, S. et al. Towards safe and sustainable innovation in nanotechnology: State-of-play for smart nanomaterials. NanoImpact, v. 21, p. 100297, 2021.

Haider, A.; Haider, S.; Kang, I. A comprehensive review summarizing the effect of electrospinning parameters and potential applications of nanofibers in biomedical and biotechnology. Arabian Journal of Chemistry, v. 11, n. 8, p. 1165-1188, 2018.

Karn, B.P.; Bergeson, L.L. Green nanotechnology: straddling promise and uncertainty. Nat. Resources & Env't, v. 24, p. 9, 2009.

Khan, I.; Saeed, K.; Khan, I. Nanoparticles: Properties, applications and toxicities. Arabian journal of chemistry, v. 12, n. 7, p. 908-931, 2019.

Khan, S. H.. Green nanotechnology for the environment and sustainable development. In: Green materials for wastewater treatment. Springer, Cham, 2020. p. 13-46.

Kuppusamy, P. et al. Biosynthesis of metallic nanoparticles using plant derivatives and their new avenues in pharmacological applications–An updated report. Saudi Pharmaceutical Journal, v. 24, n. 4, p. 473-484, 2016.

Luciano, A.P. A responsabilidade civil ambiental frente aos riscos sociais, ambientais e laborais associados à nanotecnologia. 2020.

Mcclements, D. J. Nanotechnology approaches for improving the healthiness and sustainability of the modern food supply. ACS omega, v. 5, n. 46, p. 29623-29630, 2020.

Mohanta, D.; AhmaruzzamaN, M. Addressing nanotoxicity: green nanotechnology for a sustainable future. The ELSI handbook of nanotechnology: risk, safety, ELSI and commercialization, p. 103-112, 2020.

Murshid, S.; Gopinath, K. P.; Prakash, D. G. Current Nanotechnology Based Solutions for Sustainable Wastewater Treatment. Current Analytical Chemistry, v. 17, n. 2, p. 166-184, 2021.

Nagar, A.; Pradeep, T.. Clean water through nanotechnology: needs, gaps, and fulfillment. ACS nano, v. 14, n. 6, p. 6420-6435, 2020.

NATIONS, UNIES. World population prospects 2019: highlights. UN Dep. Econ. Soc. Aff. Popul. Div, 2019.

Prasad, R.; Bhattacharyya, A.; Nguyen, Q.D. Nanotechnology in sustainable agriculture: recent developments, challenges, and perspectives. Frontiers in microbiology, v. 8, p. 1014, 2017.

Rizvi, S.AA; Saleh, A.M. Applications of nanoparticle systems in drug delivery technology. Saudi Pharmaceutical Journal, v. 26, n. 1, p. 64-70, 2018.

Selva, M. Nanotechnologies for the sustainable valorization of biowastes. Current Opinion in Green and Sustainable Chemistry, v. 24, p. 38-41, 2020.

Svendsen, C. et al. Key principles and operational practices for improved nanotechnology environmental exposure assessment. Nature Nanotechnology, v. 15, n. 9, p. 731-742, 2020.

Zhu, Q.; Xu, Q. Immobilization of ultrafine metal nanoparticles to high-surface-area materials and their catalytic applications. Chem, v. 1, n. 2, p. 220-245, 2016.

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2022-04-07

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