了解纸质紫外线暴露传感器的性能：在固态和溶液状态下，TiO光催化剂存在时亮蓝FCF的光降解机制。

Understanding the performance of a paper-based UV exposure sensor: The photodegradation mechanism of brilliant blue FCF in the presence of TiO photocatalysts in both the solid state and solution.

作者信息

Khiabani Parisa S, Soeriyadi Alexander H, Nam Ekaterina V, Peterson Joshua R, Webb James E A, Thordarson Pall, Donald William A, Gooding J Justin

机构信息

School of Chemistry, The University of New South Wales, Sydney, Australia.

Australian Centre for NanoMedicine, The University of New South Wales, Sydney, Australia.

出版信息

Rapid Commun Mass Spectrom. 2019 Jun 30;33(12):1076-1083. doi: 10.1002/rcm.8442.

DOI:10.1002/rcm.8442

PMID:30900784

Abstract

RATIONALE

The decolouration of brilliant blue FCF by the action of titanium dioxide (TiO ) under ultraviolet (UV) exposure has been recently reported as the basis of a paper-based sensor for monitoring UV sun exposure. The mechanism of brilliant blue FCF photodegradation in the presence of the photocatalyst and the resulting photoproducts are thus far unknown.

METHODS

The UV-initiated photodegradation of brilliant blue FCF in the presence of TiO for both the aqueous and the solid state was investigated. Degradation in the solid state was observed using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-MS). Decomposition of the dye in the aqueous state was analyzed using liquid chromatography/mass spectrometry (LC/MS) and ultraviolet-visible (UV-Vis) spectroscopy.

RESULTS

After UV radiation exposure, the brilliant blue FCF base peak [M1 + NH ] (m/z calc. 766.194 found 766.194) decreased in the LC/MS chromatogram with a concomitant appearance of BB-FCF decomposition products involving the sequential loss of the N-ethyl and N-methylbenzene sulfonate (MBSA) groups, assigned as [M2 + H] (-MBSA, calc. 579.163 found 579.162), [M3 + H] (-MBSA, -Et, calc. 551.131 found 551.131), [M4 + H] (-2MBSA, calc. 409.158 found 409.158), [M5 + H] (-2MBSA, -Et, calc. 381.127 found 381.127). Ions [M2 + H] and [M3 + H] were also identified in the photodegradation products using MALDI-MS. Observation by UV-Vis indicated a decrease in the solution absorbance maxima and an associated blue-shift upon UV exposure in solution.

CONCLUSIONS

The LC/MS analysis indicated two main oxidation processes. The most obvious was attack of the N-methylene, eliminating either ethyl or MBSA groups. The presence of the hydroxylated decomposition product M13 ([M13 + H] , calc. 595.157 found 595.157) supported this assignment. In addition, the detection of photoproduct M8, proposed to be 3-((ethylamino)methyl)benzenesulfonic acid ([M8 + H] , calc. 216.069 found 216.069), indicates an aryl-oxidative elimination. The absence of the aryl-hydroxy products normally expected to accompany the formation of M8 is proposed to be due to TiO -binding catechol-like derivatives, which are then removed upon filtration.

摘要

原理

最近有报道称，在紫外线（UV）照射下，二氧化钛（TiO₂）可使亮蓝FCF褪色，这是一种用于监测紫外线日晒的纸质传感器的基础。到目前为止，在光催化剂存在下亮蓝FCF的光降解机制以及产生的光产物尚不清楚。

方法

研究了TiO₂存在下亮蓝FCF在水溶液和固态中的紫外线引发的光降解。使用基质辅助激光解吸/电离飞行时间质谱（MALDI-MS）观察固态中的降解。使用液相色谱/质谱（LC/MS）和紫外可见（UV-Vis）光谱分析水溶液中染料的分解。

结果

紫外线辐射后，LC/MS色谱图中亮蓝FCF的基峰[M1 + NH₄]⁺（计算的m/z为766.194，实测为766.194）下降，同时出现了BB-FCF分解产物，包括依次失去N-乙基和N-甲基苯磺酸盐（MBSA）基团，分别指定为[M2 + H]⁺（-MBSA，计算的m/z为579.163，实测为579.162）、[M3 + H]⁺（-MBSA，-Et，计算的m/z为551.131，实测为551.131）、[M4 + H]⁺（-2MBSA，计算的m/z为409.158，实测为409.158）、[M5 + H]⁺（-2MBSA，-Et，计算的m/z为381.127，实测为381.127）。使用MALDI-MS在光降解产物中也鉴定出了离子[M2 + H]⁺和[M3 + H]⁺。UV-Vis观察表明，溶液的最大吸光度降低，并且在溶液中紫外线照射后出现相关的蓝移。

结论

LC/MS分析表明有两个主要的氧化过程。最明显的是N-亚甲基受到攻击，消除了乙基或MBSA基团。羟基化分解产物M13（[M13 + H]⁺，计算的m/z为595.157，实测为595.157）的存在支持了这一归属。此外，光产物M8的检测，推测为3-((乙氨基)甲基)苯磺酸（[M8 + H]⁺，计算的m/z为216.069，实测为216.069），表明存在芳基氧化消除。通常预期会伴随M8形成的芳基羟基产物的缺失，推测是由于与TiO₂结合的儿茶酚样衍生物，然后通过过滤去除。