Background: In recent years, as the sale of incandescent light bulb is prohibited in many countries, LED (Light Emitting Diode) products gradually replaced the traditional lights, and the global LED production value grew by more than 100% during 2008-2012. Metal-containing chemical substances were widely used in the LED optoelectronics industry for metal organic chemical vapor deposition (MOCVD). However, the health effects of these chemicals remain unclear. Preventive maintenance engineers working on MOCVD are potentially exposed to residues of toxic metals resulted from maintenance task through skin contact or inhalation. Objectives: To characterize potential metal exposure for engineers during their preventive maintenance on MOCVD, to clarify the tasks with relative high risk of metal exposure, and to verify if any metal residuals disseminated from working site by the preventive maintenance engineers. Materials and Methods: Direct-reading instrument, tape-strip sampling, wipe sampling, and air sampling were applied in this study to profile the metal exposure in the working environment by task during the MOCVD preventive maintenance. Collected samples were first digested with microwave and the metal concentrations were determined by inductively coupled plasma mass spectrometer. Results: The count concentration of particulates suspended in the work environment during preventive maintenance was 20-1600 times higher than non-maintenance work. Results of tape-strip samples showed that the highest amount of gallium accumulated on engineers’ palm and wrist after the preventive maintenance work, with maximum gallium of 0.037 and 0.036 µg/cm2, respectively. Besides, metal residues were detected on the surface of reused cleanroom clothing and personal protective equipment, which might cause secondary pollution. Results of wipe sample analysis showed that there were high amounts of metal residues in the environment after preventive maintenance work, and the average gallium loading on floor wipe samples was 859.9 µg/100 cm2, and the highest one was 7399 µg/100 cm2. Air samples showed the preventive engineers might be occupationally exposed to substantial metals during the MOCVD preventive maintenance, especially in the tasks of shelters cleaning and parts cleaning. Conclusions: In this study, we confirmed that the maintenance engineers might be potentially exposed to metal substances, especially for gallium. It’s demonstrated that simultaneously applying air sampling, tape-strip sampling, and wipe sampling methods would facilitate the evaluation of potential risks of metal exposure through inhalation and dermal exposure routes in this kind of workplace. It’s appropriate to use these methods in environmental monitoring for high metal concentration during a specific short-time task. It’s also expected that our findings would urge the industry and the government to pay more attention to the relevant issues resulted from the use of emerging chemicals, and to appreciate the importance of improving the working environment. In addition, these findings could also be used as references for the establishment of related regulations in the future.