This study investigates the main growth mechanism of InP during InP/ZnS reaction of quantum dots (QDs). The size of the InP core, considering a synthesis time of 1-30 min, increased from the initial 2.56 nm to 3.97 nm. As a result of applying the proposed particle growth model, the migration mechanism, with time index 7, was found to be the main reaction. In addition, after the removal of unreacted In and P precursors from bath, further InP growth (of up to 4.19 nm (5%)), was observed when ZnS was added. The full width at half maximum (FWHM) of the synthesized InP/ZnS quantum dots was found to be relatively uniform, measuring about 59 nm. However, kinetic growth mechanism provides limited information for InP / ZnS core shell QDs, because the surface state of InP changes with reaction time. Further study is necessary, in order to clearly determine the kinetic growth mechanism of InP / ZnS core shell QDs.

• 서한욱(한국생산기술연구원 한국희소금속산업센터 인하대학교 재료공정공학부) | Han wook Seo
• 정다운(한국생산기술연구원 한국희소금속산업센터) | Da-woon Jeong
• 이빈(한국생산기술연구원 한국희소금속산업센터) | Bin Leea
• 현승균(인하대학교 재료공정공학부) | Seoung kyun Hyun
• 김범성(한국생산기술연구원 한국희소금속산업센터 과학기술연합대학원 대학교 희소소재 및 반도체패키징공학) | Bum Sung Kim Corresponding Author