臺大學術典藏 |
2022-03-22T08:34:39Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:39Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:38Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:38Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:38Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:38Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:37Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:34:37Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:31:35Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:31:35Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H;Li A.-C;Vyas S;Huang Y.-Y;Yeh J.A;Luo Y.; Lin Y.-H; Li A.-C; Vyas S; Huang Y.-Y; Yeh J.A; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:31:34Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
臺大學術典藏 |
2022-03-22T08:31:34Z |
Patch-Based U-Net Model for Isotropic Quantitative Differential Phase Contrast Imaging
|
Li A.-C;Vyas S;Lin Y.-H;Huang Y.-Y;Huang H.-M;Luo Y.; Li A.-C; Vyas S; Lin Y.-H; Huang Y.-Y; Huang H.-M; Luo Y.; YI-YOU HUANG |
國立成功大學 |
2022 |
Superior performance enabled by supramolecular interactions in metal−organic cathode: the power of weak bonds
|
Li, A.-C.;Chang, Chang C.-H.;Ivanov, A.S.;Lo, Y.-A.;Popovs, I.;Chen, J.-L.;Chuang, Y.-C.;Chang, Y.-C.;Chen, B.-H.;Lee, J.-C.;Chen, T.-H.;Kaveevivitchai, W. |
臺大學術典藏 |
2021-11-17T01:47:35Z |
Isotropic quantitative differential phase contrast microscopy using radially asymmetric color-encoded pupil
|
Lin Y.-H.; Li A.-C.; Vyas S.; Huang Y.-Y.; Yeh J.A.; YUAN LUO |
臺大學術典藏 |
2021-04-08T01:21:29Z |
Isotropic quantitative differential phase contrast microscopy using deep neural networks
|
Li A.-C.;Lin Y.-H.;Hsuan-Ming Huang;Luo Y.; Li A.-C.; Lin Y.-H.; HSUAN-MING HUANG; Luo Y. |
臺大學術典藏 |
2021-04-08T01:21:29Z |
Isotropic quantitative differential phase contrast microscopy using deep neural networks
|
Li A.-C.;Lin Y.-H.;Hsuan-Ming Huang;Luo Y.; Li A.-C.; Lin Y.-H.; HSUAN-MING HUANG; Luo Y. |
臺大學術典藏 |
2021-03-02T01:41:19Z |
Isotropic quantitative differential phase contrast microscopy using deep neural networks
|
Li A.-C.; Lin Y.-H.; Huang H.-M.; YUAN LUO |