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3D printed photopolymer derived carbon catalysts for enhanced wet peroxide oxidation

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3D printed photopolymer derived carbon catalysts for enhanced wet peroxide oxidationExport publication in the APA format Export publication in the EXCEL format Export publication in the RIS format

Type

Article in International Scientific Journal

Date

2024

Title

3D printed photopolymer derived carbon catalysts for enhanced wet peroxide oxidation

Type

Article in International Scientific Journal

Year

2024

Authors

Silva, S

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Diaz de Tuesta, L

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Henrique, A

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Roman, F

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Omralinov, D

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Steldinger, H

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Gläsel, J

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Etzold, JM

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Silva, AC

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Silva, Adrian

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Pereira, I

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Gomes, T

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Journal

Title: Chemical Engineering JournalImported from Authenticus Search for Journal Publications

Vol. 499

ISSN: 1385-8947

Publisher: Elsevier

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LA LSRE-LCM - Financiamento Plurianual 2020-2023 para a Unidade LA LSRE-LCM Laboratório de Processos de Separação e Reacção - Laboratório de Catálise e Materiais

Other information

Authenticus ID: P-017-8J2

DOI: 10.1016/j.cej.2024.156574

Abstract (EN): In this paper, we explore the application of powdered carbon and 3D-printed carbon monoliths prepared by carbonization of a tailored photopolymer. We demonstrate the efficiency of the developed carbonaceous samples in removing paracetamol (PCM) and sulfamethoxazole (SMX), used as model contaminants. Our results demonstrate that carbon samples are active in CWPO, and their catalytic activity is significantly improved by applying nitric acid and urea functionalization methods. The characterization results showed the pure carbon nature of the material (no ashes), their unique structure defects proven by Raman (D/G > 1.8), textural properties (S-BET = 291-884 m(2)/g) and their surface chemistry, which was addressed by pHPZC (2.5-7.5), acidity (312-2375 mu mol g(cat)(-1)) and basicity (117-653 mu mol g(cat)(-1)) determination and XPS of highlighted materials (N1s = 0-3.51 at.%, O1s = 7.1-15.3 at.%). Using desorption assays, our study reveals the adsorption role for pollutant degradation by CWPO using carbon monolithic samples. At last, we demonstrated the ability of functionalized 3D-printed carbon monoliths to keep degradation of PCM and total organic carbon (TOC) above 85 % and 80 %, respectively, during 48 h in a continuous flow CWPO system. Sulfamethoxazole degradation in continuous system was also studied to validate the catalyst versatility, achieving 81 % and 79 % pollutant degradation and TOC abatement, respectively, during 48 h on stream. The characterization of the recovered catalyst provides further insights into the absence of structural modifications after the reaction, reinforcing the stability and reusability characteristic of the 3D-printed carbon catalyst.

Language: English

Type (Professor's evaluation): Scientific

No. of pages: 14

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