臺灣學術機構典藏系統 (Taiwan Academic Institutional Repository, TAIR)

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臺灣學術機構典藏系統 (Taiwan Academic Institutional Repository, TAIR)

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机构	日期	题名	作者
臺大學術典藏	2022-03-22T08:34:44Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2022-03-22T08:34:44Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2022-03-22T08:34:43Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2022-03-22T08:34:43Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2022-03-22T08:31:40Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2022-03-22T08:31:40Z	Revealing the Phagosomal pH Regulation and Inflammation of Macrophages after Endocytosing Polyurethane Nanoparticles by A Ratiometric pH Nanosensor	Wong C.-W;Pratiwi F.W;Chen P;Mou C.-Y;Hsu S.-H.; Wong C.-W; Pratiwi F.W; Chen P; Mou C.-Y; Hsu S.-H.; SHAN-HUI HSU
臺大學術典藏	2021-08-03T01:43:43Z	Zn2+-Depletion Enhances Lysosome Fission in Cultured Rat Embryonic Cortical Neurons Revealed by a Modified Epifluorescence Microscopic Technique	Tsao H.-C;Liao Y.-F;Pratiwi F.W;Mou C.-Y;Lin Y.-J;Pan C.-Y;Chen Y.-T.; Tsao H.-C; Liao Y.-F; Pratiwi F.W; Mou C.-Y; Lin Y.-J; Pan C.-Y; Chen Y.-T.; YIT-TSONG CHEN
臺大學術典藏	2021-08-03T01:43:43Z	Zn2+-Depletion Enhances Lysosome Fission in Cultured Rat Embryonic Cortical Neurons Revealed by a Modified Epifluorescence Microscopic Technique	Tsao H.-C;Liao Y.-F;Pratiwi F.W;Mou C.-Y;Lin Y.-J;Pan C.-Y;Chen Y.-T.; Tsao H.-C; Liao Y.-F; Pratiwi F.W; Mou C.-Y; Lin Y.-J; Pan C.-Y; Chen Y.-T.; YIT-TSONG CHEN
臺大學術典藏	2021-07-26T10:03:45Z	Zn2+-Depletion Enhances Lysosome Fission in Cultured Rat Embryonic Cortical Neurons Revealed by a Modified Epifluorescence Microscopic Technique	Tsao H.-C;Liao Y.-F;Pratiwi F.W;Mou C.-Y;Lin Y.-J;Pan C.-Y;Chen Y.-T.; Tsao H.-C; Liao Y.-F; Pratiwi F.W; Mou C.-Y; Lin Y.-J; Pan C.-Y; Chen Y.-T.; CHIEN-YUAN PAN
臺大學術典藏	2021-07-26T10:03:45Z	Zn2+-Depletion Enhances Lysosome Fission in Cultured Rat Embryonic Cortical Neurons Revealed by a Modified Epifluorescence Microscopic Technique	Tsao H.-C;Liao Y.-F;Pratiwi F.W;Mou C.-Y;Lin Y.-J;Pan C.-Y;Chen Y.-T.; Tsao H.-C; Liao Y.-F; Pratiwi F.W; Mou C.-Y; Lin Y.-J; Pan C.-Y; Chen Y.-T.; CHIEN-YUAN PAN

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