# Undervalued Contribution of OVOCs to Atmospheric Activity: A Case Study in Beijing

**Authors:** Kaitao Chen, Ziyan Chen, Fang Yang, Xingru Li, Fangkun Wu

PMC · DOI: 10.3390/toxics14010077 · Toxics · 2026-01-14

## TL;DR

This study highlights the significant role of oxygenated volatile organic compounds (OVOCs) like phenols in atmospheric reactivity and ozone formation in Beijing.

## Contribution

The study re-evaluates the importance of OVOCs, particularly phenols, in atmospheric chemical processes and ozone formation.

## Key findings

- Phenols contributed the most to total VOC concentration (38.87%) and had a dominant role in SOAFP and LOH reactivity.
- Carbonyls were the largest contributors to the ozone formation potential (OFP) at 59.03%.
- Solvent use and organic chemical production were identified as the primary sources of VOCs, accounting for 31.76% of emissions.

## Abstract

VOCs are significant precursors for the formation of O3 and SOA, directly impacting human health. This study employs multiple approaches to analyzing atmospheric VOCs by focusing on OVOCs including aldehydes, ketones, and phenols, with a case study in Beijing, China. We analyzed the concentration levels and compositions of VOCs and their atmospheric activities, offering a new perspective on VOCs. This analysis was conducted through offline measurements of volatile phenols and carbonyl compounds, complemented by online VOC observations during the summer period of high O3 levels. The total atmospheric VOCs concentration was found to be 51.29 ± 10.01 ppbv, with phenols contributing the most (38.87 ± 11.57%), followed by carbonyls (34.91 ± 6.85%), and aromatics (2.70 ± 1.03%, each compound is assigned to only one category based on its primary functional group, with no double counting). Carbonyls were the largest contributors to the OFP at 59.03 ± 14.69%, followed by phenols (19.94 ± 4.27%). The contribution of phenols to the SOAFP (43.37 ± 9.53%) and the LOH (67.74 ± 16.72%) is dominant. Among all quantified VOC species, phenol and formaldehyde exhibited the highest species-level contributions to atmospheric reactivity metrics, including LOH, OFP and SOAFP, owing to their combination of elevated concentrations and large kinetic or MIR coefficients. Using the PMF model for source analysis, six main sources of volatile organic compounds were identified. Solvent use and organic chemicals production were found to be the primary contributors, accounting for 31.76% of the total VOCs emissions, followed by diesel vehicle exhaust (17.80%) and biogenic sources (15.51%). This study introduces important OVOCs such as phenols, re-evaluates the importance of OVOCs and their role in atmospheric chemical processes, and provides new insights into atmospheric VOCs. These findings are crucial for developing effective air pollution control strategies and improving air quality. This study emphasizes the importance of OVOCs, especially aldehydes and phenols, in the mechanism of summer O3 generation.

## Linked entities

- **Chemicals:** phenol (PubChem CID 996), formaldehyde (PubChem CID 712)

## Full-text entities

- **Chemicals:** phenol (MESH:D019800), aldehydes (MESH:D000447), organic chemicals (MESH:D009930), O3 (MESH:D010126), phenols (MESH:D010636), OFP (-), ketones (MESH:D007659), formaldehyde (MESH:D005557)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

128 references — full list in the complete paper: https://tomesphere.com/paper/PMC12845771/full.md

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Source: https://tomesphere.com/paper/PMC12845771