| 臺大學術典藏 |
2022-03-22T08:28:28Z |
A nanofluidic preconcentrator integrated with an aluminum-based nanoplasmonic sensor for Epstein-Barr virus detection
|
Hsieh H.-Y;Luo J.-X;Shen Y.-H;Lo S.-C;Hsu Y.-C;Tahara H;Fan Y.-J;Wei P.-K;Sheen H.-J.; Hsieh H.-Y; Luo J.-X; Shen Y.-H; Lo S.-C; Hsu Y.-C; Tahara H; Fan Y.-J; Wei P.-K; Sheen H.-J.; HORN-JIUNN SHEEN |
| 臺大學術典藏 |
2022-03-22T08:28:28Z |
Continuous polymerase chain reaction microfluidics integrated with a gold-capped nanoslit sensing chip for Epstein-Barr virus detection
|
Hsieh H.-Y;Chang R;Huang Y.-Y;Juan P.-H;Tahara H;Lee K.-Y;Vo D.N.K;Tsai M.-H;Wei P.-K;Sheen H.-J;Fan Y.-J.; Sheen H.-J; HORN-JIUNN SHEEN et al. |
| 臺大學術典藏 |
2022-03-22T08:28:27Z |
Nanoplasmonic structure of a polycarbonate substrate integrated with parallel microchannels for label-free multiplex detection
|
Lu Y.-J;Hsieh H.-Y;Kuo W.-C;Wei P.-K;Sheen H.-J;Tahara H;Chiu T.-W;Fan Y.-J.; Lu Y.-J; Hsieh H.-Y; Kuo W.-C; Wei P.-K; Sheen H.-J; Tahara H; Chiu T.-W; Fan Y.-J.; HORN-JIUNN SHEEN |
| 臺大學術典藏 |
2022-03-22T08:28:27Z |
Development of a water refractive index-matched microneedle integrated into a light sheet microscopy system for continuous embryonic cell imaging
|
Fan Y.-J;Hsieh H.-Y;Huang Y.-R;Tsao C;Lee C.-M;Tahara H;Wu Y.-C;Sheen H.-J;Chen B.-C.; Fan Y.-J; Hsieh H.-Y; Huang Y.-R; Tsao C; Lee C.-M; Tahara H; Wu Y.-C; Sheen H.-J; Chen B.-C.; HORN-JIUNN SHEEN |
| 臺大學術典藏 |
2022-03-22T08:26:49Z |
An environmental friendly tapioca starch-alginate cultured scaffold as biomimetic muscle tissue
|
Lin C.-W;Wu P.-T;Liu K.-T;Fan Y.-J;Yu J.; Lin C.-W; Wu P.-T; Liu K.-T; Fan Y.-J; Yu J.; JIASHING YU |
| 臺大學術典藏 |
2022-03-22T08:26:48Z |
Keratin-Based Nanoparticles with Tumor-Targeting and Cascade Catalytic Capabilities for the Combinational Oxidation Phototherapy of Breast Cancer
|
Lu T.-Y;Lu W.-F;Wang Y.-H;Liao M.-Y;Wei Y;Fan Y.-J;Chuang E.-Y;Yu J.; Lu T.-Y; Lu W.-F; Wang Y.-H; Liao M.-Y; Wei Y; Fan Y.-J; Chuang E.-Y; Yu J.; JIASHING YU |
| 臺大學術典藏 |
2022-03-22T08:26:48Z |
Glycol chitosan/iron oxide/polypyrrole nanoclusters for precise chemodynamic/photothermal synergistic therapy
|
Qui?ones E.D;Lu T.-Y;Liu K.-T;Fan Y.-J;Chuang E.-Y;Yu J.; Qui?ones E.D; Lu T.-Y; Liu K.-T; Fan Y.-J; Chuang E.-Y; Yu J.; JIASHING YU |
| 國立成功大學 |
2022 |
Organizational Culture: The Key to Improving Service Management in Industry 4.0
|
Liu, S.-F.;Fan, Y.-J.;Luh, D.-B.;Teng, P.-S. |
| 國立成功大學 |
2022 |
Early committed polarization of intracellular tension in response to cell shape determines the osteogenic differentiation of mesenchymal stromal cells
|
Wu, M.-C.;Yu, H.W.;Chen, Y.-Q.;Ou, M.-H.;Serrano, R.;Huang, G.-L.;Wang, Y.-K.;Lin, K.-H.;Fan, Y.-J.;Wu, C.-C.;del, �lamo J.C.;Chiou, A.;Chien, S.;Kuo, J.-C. |
| 臺大學術典藏 |
2021-08-05T02:41:36Z |
Developement of valve-integrated nanofluidic preconcentrator for low-abundance protein detection
|
Deng C.-Z;Fan Y.-J;Sheen H.-J.; Deng C.-Z; Fan Y.-J; Sheen H.-J.; HORN-JIUNN SHEEN |
| 臺大學術典藏 |
2021-08-05T02:38:19Z |
Dual-Targeting Glycol Chitosan/Heparin-Decorated Polypyrrole Nanoparticle for Augmented Photothermal Thrombolytic Therapy
|
Lu T.-Y;Chiang C.-Y;Fan Y.-J;Jheng P.-R;Quinones E.D;Liu K.-T;Kuo S.-H;Hsieh H.Y;Tseng C.-L;Yu J;Chuang E.-Y.; Lu T.-Y; JIASHING YU et al. |
| 國立成功大學 |
2021 |
Corporate sustainability: Impact factors on organizational innovation in the industrial area
|
Fan, Y.-J.;Liu, S.-F.;Luh, D.-B.;Teng, P.-S. |
| 臺大學術典藏 |
2020-06-11T06:10:01Z |
Real-time dual-loop electric current measurement for label-free nanofluidic preconcentration chip
|
Chung, P.-S.;Fan, Y.-J.;Sheen, H.-J.;Tian, W.-C.; Chung, P.-S.; Fan, Y.-J.; Sheen, H.-J.; Tian, W.-C.; WEI-CHENG TIAN |
| 臺大學術典藏 |
2020-06-11T06:09:56Z |
Label-free nanofluidic preconcentration with multi-operational modes by loop currents monitoring for biological application
|
Chung, P.-S.;Liu, Y.-L.;Liao, K.-P.;Fan, Y.-J.;Sung, K.-B.;Sheen, H.-J.;Tian, W.-C.; Chung, P.-S.; Liu, Y.-L.; Liao, K.-P.; Fan, Y.-J.; Sung, K.-B.; Sheen, H.-J.; Tian, W.-C.; WEI-CHENG TIAN |
| 臺大學術典藏 |
2020-03-03T02:27:30Z |
Detection of C-reactive protein based on measurement of Brownian motion by micro-particle-tracking-velocimetry
|
Fan Y.J.; Hsu C.J.; Liu C.P.; Wu T.H.; Sheen H.J.; SHI-MING LIN |
| 臺大學術典藏 |
2020-03-03T02:27:29Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
Fan Y.-J.;Lee C.-J.;Hsu J.-H.;Liu Y.-H.;Yeh S.-I.;Sheen H.-J.;Shi-Ming Lin;Tsai J.-F.; Fan Y.-J.; Lee C.-J.; Hsu J.-H.; Liu Y.-H.; Yeh S.-I.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2020-03-03T02:27:29Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
Fan Y.-J.;Lee C.-J.;Hsu J.-H.;Liu Y.-H.;Yeh S.-I.;Sheen H.-J.;Shi-Ming Lin;Tsai J.-F.; Fan Y.-J.; Lee C.-J.; Hsu J.-H.; Liu Y.-H.; Yeh S.-I.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2020-03-03T02:27:29Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
Fan Y.-J.;Sheen H.-J.;Liu Y.-H.;Tsai J.-F.;Wu T.-H.;Wu K.-C.;Shi-Ming Lin; Fan Y.-J.; Sheen H.-J.; Liu Y.-H.; Tsai J.-F.; Wu T.-H.; Wu K.-C.; SHI-MING LIN |
| 臺大學術典藏 |
2020-03-03T02:27:29Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
Fan Y.-J.;Sheen H.-J.;Liu Y.-H.;Tsai J.-F.;Wu T.-H.;Wu K.-C.;Shi-Ming Lin; Fan Y.-J.; Sheen H.-J.; Liu Y.-H.; Tsai J.-F.; Wu T.-H.; Wu K.-C.; SHI-MING LIN |
| 臺大學術典藏 |
2020-03-03T02:27:29Z |
A quantitative immunosensing technique based on the measurement of nanobeads' Brownian motion
|
Fan Y.-J.; Sheen H.-J.; Hsu C.-J.; Liu C.-P.; SHI-MING LIN; Wu K.-C. |
| 臺大學術典藏 |
2020-03-03T02:27:28Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
Fan Y.-J.;Liu Y.-H.;Wu T.-H.;Sheen H.-J.;Shi-Ming Lin;Tsai J.-F.; Fan Y.-J.; Liu Y.-H.; Wu T.-H.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2020-03-03T02:27:28Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
Fan Y.-J.;Liu Y.-H.;Wu T.-H.;Sheen H.-J.;Shi-Ming Lin;Tsai J.-F.; Fan Y.-J.; Liu Y.-H.; Wu T.-H.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2020-01-17T07:46:55Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
JING-FA TSAI;Tsai, J.-F.;Lin, S.;Sheen, H.-J.;Yeh, S.-I.;Liu, Y.-H.;Hsu, J.-H.;Lee, C.-J.;Fan, Y.-J.; Fan, Y.-J.; Lee, C.-J.; Hsu, J.-H.; Liu, Y.-H.; Yeh, S.-I.; Sheen, H.-J.; Lin, S.; Tsai, J.-F.; JING-FA TSAI |
| 臺大學術典藏 |
2020-01-17T07:46:55Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
JING-FA TSAI;Tsai, J.-F.;Lin, S.;Sheen, H.-J.;Yeh, S.-I.;Liu, Y.-H.;Hsu, J.-H.;Lee, C.-J.;Fan, Y.-J.; Fan, Y.-J.; Lee, C.-J.; Hsu, J.-H.; Liu, Y.-H.; Yeh, S.-I.; Sheen, H.-J.; Lin, S.; Tsai, J.-F.; JING-FA TSAI |
| 臺大學術典藏 |
2020-01-17T07:46:55Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
JING-FA TSAI; Lin, S.; Wu, K.-C.; Wu, T.-H.; Tsai, J.-F.; Liu, Y.-H.; Fan, Y.-J.; Sheen, H.-J. |
| 臺大學術典藏 |
2020-01-17T07:46:54Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
JING-FA TSAI;Tsai, J.-F.;Lin, S.;Sheen, H.-J.;Wu, T.-H.;Liu, Y.-H.;Fan, Y.-J.; Fan, Y.-J.; Liu, Y.-H.; Wu, T.-H.; Sheen, H.-J.; Lin, S.; Tsai, J.-F.; JING-FA TSAI |
| 臺大學術典藏 |
2020-01-17T07:46:54Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
JING-FA TSAI;Tsai, J.-F.;Lin, S.;Sheen, H.-J.;Wu, T.-H.;Liu, Y.-H.;Fan, Y.-J.; Fan, Y.-J.; Liu, Y.-H.; Wu, T.-H.; Sheen, H.-J.; Lin, S.; Tsai, J.-F.; JING-FA TSAI |
| 臺大學術典藏 |
2019-10-29T07:18:25Z |
Detection of C-reactive protein based on measurement of Brownian motion by micro-particle-tracking-velocimetry
|
SHI-MING LIN;Sheen H.J.;Wu T.H.;Liu C.P.;Hsu C.J.;Fan Y.J.; Fan Y.J.; Hsu C.J.; Liu C.P.; Wu T.H.; Sheen H.J.; SHI-MING LIN |
| 臺大學術典藏 |
2019-10-29T07:18:25Z |
Detection of C-reactive protein based on measurement of Brownian motion by micro-particle-tracking-velocimetry
|
SHI-MING LIN;Sheen H.J.;Wu T.H.;Liu C.P.;Hsu C.J.;Fan Y.J.; Fan Y.J.; Hsu C.J.; Liu C.P.; Wu T.H.; Sheen H.J.; SHI-MING LIN |
| 臺大學術典藏 |
2019-10-29T07:18:24Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
SHI-MING LIN;Wu K.-C.;Wu T.-H.;Tsai J.-F.;Liu Y.-H.;Sheen H.-J.;Fan Y.-J.; Fan Y.-J.; Sheen H.-J.; Liu Y.-H.; Tsai J.-F.; Wu T.-H.; Wu K.-C.; SHI-MING LIN |
| 臺大學術典藏 |
2019-10-29T07:18:24Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
SHI-MING LIN;Wu K.-C.;Wu T.-H.;Tsai J.-F.;Liu Y.-H.;Sheen H.-J.;Fan Y.-J.; Fan Y.-J.; Sheen H.-J.; Liu Y.-H.; Tsai J.-F.; Wu T.-H.; Wu K.-C.; SHI-MING LIN |
| 臺大學術典藏 |
2019-10-29T07:18:24Z |
A quantitative immunosensing technique based on the measurement of nanobeads' Brownian motion
|
Wu K.-C.;SHI-MING LIN;Liu C.-P.;Hsu C.-J.;Sheen H.-J.;Fan Y.-J.; Fan Y.-J.; Sheen H.-J.; Hsu C.-J.; Liu C.-P.; SHI-MING LIN; Wu K.-C. |
| 臺大學術典藏 |
2019-10-29T07:18:24Z |
A quantitative immunosensing technique based on the measurement of nanobeads' Brownian motion
|
Wu K.-C.;SHI-MING LIN;Liu C.-P.;Hsu C.-J.;Sheen H.-J.;Fan Y.-J.; Fan Y.-J.; Sheen H.-J.; Hsu C.-J.; Liu C.-P.; SHI-MING LIN; Wu K.-C. |
| 臺大學術典藏 |
2019-10-29T07:18:23Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
Tsai J.-F.;SHI-MING LIN;Sheen H.-J.;Wu T.-H.;Liu Y.-H.;Fan Y.-J.; Fan Y.-J.; Liu Y.-H.; Wu T.-H.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2019-10-29T07:18:23Z |
A viscosity and C-reactive protein sensing technique based on Brownian motion measurements by total-internal-reflective-fluorescent velocimetry
|
Tsai J.-F.;SHI-MING LIN;Sheen H.-J.;Wu T.-H.;Liu Y.-H.;Fan Y.-J.; Fan Y.-J.; Liu Y.-H.; Wu T.-H.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2019-10-29T07:18:23Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
Tsai J.-F.;SHI-MING LIN;Sheen H.-J.;Yeh S.-I.;Liu Y.-H.;Hsu J.-H.;Lee C.-J.;Fan Y.-J.; Fan Y.-J.; Lee C.-J.; Hsu J.-H.; Liu Y.-H.; Yeh S.-I.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2019-10-29T07:18:23Z |
An integrated system of RBCs sorting and Brownian motion bio-sensing technique
|
Tsai J.-F.;SHI-MING LIN;Sheen H.-J.;Yeh S.-I.;Liu Y.-H.;Hsu J.-H.;Lee C.-J.;Fan Y.-J.; Fan Y.-J.; Lee C.-J.; Hsu J.-H.; Liu Y.-H.; Yeh S.-I.; Sheen H.-J.; SHI-MING LIN; Tsai J.-F. |
| 臺大學術典藏 |
2018-09-10T15:21:59Z |
TIRF-enhanced nanobeads’ Brownian diffusion measurements for detecting CRP in human serum
|
KUANG-CHONG WU;Wu, K.-C.;Tsai, J.-F.;Liu, Y.-H.;Chen, Z.-Y.;Sheen, H.-J.;Fan, Y.-J.;KUANG-CHONG WU; Fan, Y.-J.; Sheen, H.-J.; Chen, Z.-Y.; Liu, Y.-H.; Tsai, J.-F.; Wu, K.-C.; KUANG-CHONG WU |
| 臺大學術典藏 |
2018-09-10T15:21:59Z |
TIRF-enhanced nanobeads’ Brownian diffusion measurements for detecting CRP in human serum
|
KUANG-CHONG WU;Wu, K.-C.;Tsai, J.-F.;Liu, Y.-H.;Chen, Z.-Y.;Sheen, H.-J.;Fan, Y.-J.;KUANG-CHONG WU; Fan, Y.-J.; Sheen, H.-J.; Chen, Z.-Y.; Liu, Y.-H.; Tsai, J.-F.; Wu, K.-C.; KUANG-CHONG WU |
| 臺大學術典藏 |
2018-09-10T08:13:12Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
KUANG-CHONG WU;Lin, S.;Wu, K.-C.;Wu, T.-H.;Tsai, J.-F.;Liu, Y.-H.;Sheen, H.-J.;Fan, Y.-J.; Fan, Y.-J.; Sheen, H.-J.; Liu, Y.-H.; Tsai, J.-F.; Wu, T.-H.; Wu, K.-C.; Lin, S.; KUANG-CHONG WU |
| 臺大學術典藏 |
2018-09-10T08:13:12Z |
Detection of C-reactive protein in evanescent wave field usingmicroparticle-tracking velocimetry
|
KUANG-CHONG WU;Lin, S.;Wu, K.-C.;Wu, T.-H.;Tsai, J.-F.;Liu, Y.-H.;Sheen, H.-J.;Fan, Y.-J.; Fan, Y.-J.; Sheen, H.-J.; Liu, Y.-H.; Tsai, J.-F.; Wu, T.-H.; Wu, K.-C.; Lin, S.; KUANG-CHONG WU |
| 臺大學術典藏 |
2015 |
TIRF-enhanced nanobeads�� Brownian diffusion measurements for detecting CRP in human serum
|
Fan, Y.-J.; Sheen, H.-J.; Chen, Z.-Y.; Liu, Y.-H.; Tsai, J.-F.; Wu, K.-C.; JING-FA TSAI |
