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3 Mercaptopropionic Acid

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Liya Zhou – One of the best experts on this subject based on the ideXlab platform.

  • formation of 3 Mercaptopropionic Acid znxcd1 xse quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

  • Formation of 3Mercaptopropionic Acid-ZnxCd1−xSe quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

Yue Geng – One of the best experts on this subject based on the ideXlab platform.

  • formation of 3 Mercaptopropionic Acid znxcd1 xse quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

  • Formation of 3Mercaptopropionic Acid-ZnxCd1−xSe quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

Rongfang Wang – One of the best experts on this subject based on the ideXlab platform.

  • formation of 3 Mercaptopropionic Acid znxcd1 xse quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

  • Formation of 3Mercaptopropionic Acid-ZnxCd1−xSe quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

Jiahui Song – One of the best experts on this subject based on the ideXlab platform.

  • formation of 3 Mercaptopropionic Acid znxcd1 xse quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

  • Formation of 3Mercaptopropionic Acid-ZnxCd1−xSe quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

Chunyan Zhou – One of the best experts on this subject based on the ideXlab platform.

  • formation of 3 Mercaptopropionic Acid znxcd1 xse quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.

  • Formation of 3Mercaptopropionic Acid-ZnxCd1−xSe quantum dots with tunable band gap
    Chemical Physics Letters, 2015
    Co-Authors: Yue Geng, Qian Chen, Chunyan Zhou, Jiahui Song, Rongfang Wang, Liya Zhou
    Abstract:

    Abstract Alloyed Zn x Cd 1− x Se quantum dots (QDs) covering the UV–visible spectral region are successfully synthesized using 3Mercaptopropionic Acid (MPA) as a capping agent. The optical properties of the alloyed QDs are determined on the basis of different ligands, reaction times, pH, Se/Zn molar ratios, and Zn/Cd molar ratios. The band gaps of the as-prepared QDs can be tuned by adjusting the compositions of the dots, and the quantum yield of Zn x Cd 1− x Se QDs is 33%. All results indicate that Zn x Cd 1− x Se QDs can be potentially applied in photochemical devices.