# Rational Design of PCN/Ce-MOF S-Scheme Heterojunction for Highly Efficient Synergistically Photocatalytic H2 Evolution and Tetracycline Degradation

**Authors:** Quan Xiang, Linzhu Zhang, Lu Chen, Ruowen Liang, Renkun Huang, Guiyang Yan

PMC · DOI: 10.3390/molecules31040740 · Molecules · 2026-02-21

## TL;DR

This study creates a new photocatalyst that efficiently produces hydrogen and breaks down tetracycline under visible light.

## Contribution

A novel S-scheme heterojunction of PCN and Ce-MOF is designed for synergistic hydrogen evolution and tetracycline degradation.

## Key findings

- The PCN/Ce-MOF composite achieves a hydrogen production rate of 495.7 μmol g−1 h−1.
- Tetracycline removal efficiency reaches 78% due to effective hole capture and reduced electron-hole recombination.

## Abstract

Catalytic systems that couple pollutant degradation with hydrogen evolution have attracted significant attention due to their potential to simultaneously address environmental and energy issues. In this study, an S-scheme heterojunction composed of lamellar polymeric carbon nitride (PCN) anchored with a rod-like cerium metal–organic framework (Ce-MOF) was successfully synthesized via a facile one-step oxidation method, enabling efficient visible-light-driven photocatalytic hydrogen evolution and simultaneous tetracycline degradation. The optimized PCN/Ce-MOF composite delivers a hydrogen production rate of 495.7 μmol g−1 h−1 and achieves a tetracycline removal efficiency of 78%. Such excellent performance is attributed to the charge transfer mechanism of the S-scheme heterojunction in the PCN-Ce-MOF composite during the reaction process, while retaining the intrinsic redox capabilities of both materials. Meanwhile, mechanistic studies reveal that tetracycline can effectively capture holes during its efficient degradation, inhibit electron–hole recombination, and promote proton reduction to generate hydrogen. This investigation provides valuable insights for the rational design of S-scheme heterojunction photocatalysts, aiming to achieve efficient and stable photocatalytic hydrogen production and synergistic degradation of organic pollutants.

## Linked entities

- **Chemicals:** tetracycline (PubChem CID 54675776), hydrogen (PubChem CID 783)

## Full-text entities

- **Genes:** PCNT (pericentrin) [NCBI Gene 5116] {aka KEN, MOPD2, PCN, PCNT2, PCNTB, PCTN2}
- **Diseases:** injury to (MESH:D014947)
- **Chemicals:** methanol (MESH:D000432), DEP (MESH:C007379), g-C3N4 (MESH:C000629596), Platinum (MESH:D010984), TC (MESH:D013667), O (MESH:D010100), N (MESH:D009584), BiVO4 (MESH:C091754), carbon nitride (MESH:C011206), disodium ethylenediaminetetraacetate (MESH:D004492), lactic acid (MESH:D019344), MOFs (MESH:C040750), Polymeric (MESH:D011108), C (MESH:D002244), CIP (MESH:D002939), H2O. (MESH:D014867), IPA (MESH:D019840), ASA (MESH:D001205), silver chloride (MESH:C037548), xenon (MESH:D014978), silver (MESH:D012834), NaOH (MESH:D012972), hydroxyl radicals (MESH:D017665), Ce (MESH:D002563), 2,2,6,6-tetramethylpiperidine-1-oxyl (MESH:C003959), ethanol (MESH:D000431), triethanolamine (MESH:C009546), S (MESH:D013455), H2O2 (MESH:D006861), MVCN (-), superoxide radicals (MESH:D013481), 4-NP (MESH:C041594), Tetracycline (MESH:D013752), MOF (MESH:C037042), chloroplatinic acid (MESH:C002999), Urea (MESH:D014508), trimesic acid (MESH:C069849), KBrO3 (MESH:C019536), p-nitrophenol (MESH:C024836), TiO2 (MESH:C009495), CO2 (MESH:D002245), cerium nitrate (MESH:C032786), OH (MESH:C031356), N, N-dimethylformamide (MESH:D004126), H+ (MESH:D006859), 5,5-dimethyl-1-pyrroline N-oxide (MESH:C017245), reactive oxygen species (MESH:D017382)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12943195/full.md

## References

43 references — full list in the complete paper: https://tomesphere.com/paper/PMC12943195/full.md

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Source: https://tomesphere.com/paper/PMC12943195