| 臺大學術典藏 |
2020-03-31T08:25:23Z |
Doping effects on the magnetoelectricity of bismuth ferrite nanoparticles
|
Lin, J. G.; Tang, Y. H.; Han, T. C.; Liu, H. L. |
| 臺大學術典藏 |
2020-03-31T08:25:16Z |
Thickness-dependent optical properties of La 0.7 Sr 0.3 Mn O3 thin films
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Her, J. L.; Kuo, M. X.; Liu, H. L.; Lu, K. S.; Weng, S. M.; Wang, L. M.; Cheng, S. L.; Lin, J. G. |
| 臺大學術典藏 |
2020-03-30T13:04:04Z |
Ex-vivo study of cavitation-enhanced heating by combining low (40 kHz) and high (566 kHz) frequency ultrasound
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Liu H.-L.;Shih T.-C.;Wen-Shiang Chen;Lu B.-Y.; Liu H.-L.; Shih T.-C.; WEN-SHIANG CHEN; Lu B.-Y. |
| 臺大學術典藏 |
2020-03-30T13:04:03Z |
The investigation of contrast-agent enhanced ultrasound thermal effect
|
Lin W.L.; WEN-SHIANG CHEN; Liu H.L.; Ju K.C.; Wu C.C.; Tung Y.S.;Wu C.C.;Liu H.L.;Ju K.C.;Wen-Shiang Chen;Lin W.L.; Tung Y.S. |
| 臺大學術典藏 |
2020-03-30T13:03:59Z |
Submitted to the Medical Physics Journal as a TECHNIQUE NOTE Differences in the lesion formation process between focused ultrasound and microwave ablations
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Wu C.-C.; Fang H.-Y.; Liu H.-L.; Wen-Shiang Chen;Wu C.-C.;Fang H.-Y.;Liu H.-L.; WEN-SHIANG CHEN |
| 臺大學術典藏 |
2020-03-30T13:03:57Z |
Contrast-agent-enhanced ultrasound thermal ablation
|
Tung Y.-S.;Liu H.-L.;Wu C.-C.;Ju K.-C.;Wen-Shiang Chen;Lin W.-L.; Tung Y.-S.; Liu H.-L.; Wu C.-C.; Ju K.-C.; WEN-SHIANG CHEN; Lin W.-L. |
| 臺大學術典藏 |
2020-03-30T13:03:57Z |
Interactions between consecutive sonications for characterizing the thermal mechanism in focused ultrasound therapy
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Liu H.-L.;Chen Y.-Y.;Wen-Shiang Chen;Shih T.-C.;Chen J.-S.;Lin W.-L.; Liu H.-L.; Chen Y.-Y.; WEN-SHIANG CHEN; Shih T.-C.; Chen J.-S.; Lin W.-L. |
| 臺大學術典藏 |
2020-03-30T13:03:56Z |
A novel strategy to increase heating efficiency in a split-focus ultrasound phased array
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Liu H.-L.;Shih T.-C.;Wen-Shiang Chen;Ju K.-C.; Liu H.-L.; Shih T.-C.; WEN-SHIANG CHEN; Ju K.-C. |
| 臺大學術典藏 |
2020-03-30T13:03:56Z |
Feasibility of transrib focused ultrasound thermal ablation for liver tumors using a spherically curved 2D array: A numerical study
|
Liu H.-L.;Chang H.;Wen-Shiang Chen;Shih T.-C.;Hsiao J.-K.;Lin W.-L.; Liu H.-L.; Chang H.; WEN-SHIANG CHEN; Shih T.-C.; Hsiao J.-K.; Lin W.-L. |
| 臺大學術典藏 |
2020-03-30T13:03:45Z |
Single-element ultrasound transducer for combined vessel localization and ablation
|
Wen-Shiang Chen;Shen C.-C.;Wang J.-C.;Ko C.-T.;Liu H.-L.;Ho M.-C.;Chen C.-N.;Yeh C.-K.; WEN-SHIANG CHEN; Shen C.-C.; Wang J.-C.; Ko C.-T.; Liu H.-L.; Ho M.-C.; Chen C.-N.; Yeh C.-K. |
| 臺大學術典藏 |
2020-03-30T13:03:45Z |
Reducing lesion aberration by dual-frequency focused ultrasound ablations
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Wen-Shiang Chen;Liu H.-L.;Tung Y.-S.;Wang J.-C.;Ding Y.-H.;Jan C.-K.; WEN-SHIANG CHEN; Liu H.-L.; Tung Y.-S.; Wang J.-C.; Ding Y.-H.; Jan C.-K. |
| 臺大學術典藏 |
2020-03-30T13:03:38Z |
An approach for the visualization of temperature distribution in tissues according to changes in ultrasonic backscattered energy
|
Xia J.;Li Q.;Liu H.-L.;Wen-Shiang Chen;Tsui P.-H.; Xia J.; Li Q.; Liu H.-L.; WEN-SHIANG CHEN; Tsui P.-H. |
| 臺大學術典藏 |
2020-03-30T13:03:23Z |
Real-time monitoring of inertial cavitation effects of microbubbles by using MRI: In vitro experiments
|
Peng H.-H.;Wu C.-H.;Kang S.-T.;Zhang J.-W.;Liu H.-L.;Wen-Shiang Chen;Wang C.-H.;Yeh C.-K.; Peng H.-H.; Wu C.-H.; Kang S.-T.; Zhang J.-W.; Liu H.-L.; Yeh C.-K.; WEN-SHIANG CHEN; Wang C.-H. |
| 臺大學術典藏 |
2020-03-30T13:03:18Z |
Safety evaluation of frequent application of microbubble-enhanced focused ultrasound blood-brain-barrier opening
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Wei K.-C.; Liu H.-L.; WEN-SHIANG CHEN; Inserra C.; Tsai C.-H.; Tsai H.-C.; Tsai H.-C.;Tsai C.-H.;Wen-Shiang Chen;Inserra C.;Wei K.-C.;Liu H.-L. |
| 臺大學術典藏 |
2020-03-30T13:03:15Z |
Monitoring of acoustic cavitation in microbubble-presented focused ultrasound exposure using gradient-echo MRI
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Wu C.-H.; Liu H.-L.; Ho C.-T.; Hsu P.-H.; Fan C.-H.; Yeh C.-K.; Kang S.-T.; WEN-SHIANG CHEN; Wang F.-N.; Peng H.-H.; Wu C.-H.;Liu H.-L.;Ho C.-T.;Hsu P.-H.;Fan C.-H.;Yeh C.-K.;Kang S.-T.;Wen-Shiang Chen;Wang F.-N.;Peng H.-H. |
| 臺大學術典藏 |
2020-03-26T05:21:38Z |
Constraint-induced therapy versus control intervention in patients with stroke: A functional magnetic resonance imaging study
|
Wai Y.-Y.; Chen C.-L.; Chuang L.-L.; Liu J.-S.; Keh-Chung Lin;Chung H.-Y.;Wu C.-Y.;Liu H.-L.;Hsieh Y.-W.;Chen I.-H.;Chen C.-L.;Chuang L.-L.;Liu J.-S.;Wai Y.-Y.; Chen I.-H.; Hsieh Y.-W.; Liu H.-L.; Wu C.-Y.; Chung H.-Y.; KEH-CHUNG LIN |
| 臺大學術典藏 |
2020-03-26T05:21:36Z |
Brain reorganization after bilateral arm training and distributed constraint-induced therapy in stroke patients: A preliminary functional magnetic resonance imaging study
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Wu C.-Y.; Wu C.-Y.;Hsieh Y.-W.;Keh-Chung Lin;Chuang L.-L.;Chang Y.-F.;Liu H.-L.;Chen C.-L.;Lin, K.-H.;Wai Y.-Y.; Wai Y.-Y.; Lin, K.-H.; Hsieh Y.-W.; KEH-CHUNG LIN; Chuang L.-L.; Chang Y.-F.; Liu H.-L.; Chen C.-L. |
| 臺大學術典藏 |
2020-03-26T04:01:35Z |
Changes in structural integrity are correlated with motor and functional recovery after post-stroke rehabilitation
|
Fan Y.-T.; KEH-CHUNG LIN; Liu H.-L.; Chen Y.-L.; Wu C.-Y. |
| 臺大學術典藏 |
2020-03-26T04:01:32Z |
Neural correlates of motor recovery after robot-assisted stroke rehabilitation: a case series study
|
Lee T.-H.; Wai Y.-Y.; Liu H.-L.; Wu C.-Y.; KEH-CHUNG LIN; Fan Y.-T. |
| 臺大學術典藏 |
2020-03-24T02:57:18Z |
Focused shockwave induced blood-brain barrier opening and transfection
|
Inserra C.; Chen W.-S.; Liao W.-H.; Liu H.-L.; Kung Y.;Lan C.;Hsiao M.-Y.;Sun M.-K.;Hsu Y.-H.;Abel Po-Hao Huang;Liao W.-H.;Liu H.-L.;Inserra C.;Chen W.-S.; ABEL PO-HAO HUANG; Hsu Y.-H.; Sun M.-K.; Lan C.; Hsiao M.-Y.; Kung Y. |
| 臺大學術典藏 |
2020-03-23T05:54:08Z |
Single-element ultrasound transducer for combined vessel localization and ablation
|
Ho M.-C.; CHIUNG-NIEN CHEN; Yeh C.-K.; Liu H.-L.; Ko C.-T.; Wang J.-C.; Shen C.-C.; Chen W.-S.; Chen W.-S.;Shen C.-C.;Wang J.-C.;Ko C.-T.;Liu H.-L.;Ho M.-C.;Chiung-Nien Chen;Yeh C.-K. |
| 臺大學術典藏 |
2020-02-26T09:01:13Z |
Optimization of power deposition and a heating strategy for external ultrasound thermal therapy
|
Win-Li Lin;Liang T.-C.;Yen J.-Y.;Liu H.-L.;Chen Y.-Y.; Win-Li Lin; Liang T.-C.; Yen J.-Y.; Liu H.-L.; Chen Y.-Y. |
| 臺大學術典藏 |
2020-02-26T09:01:12Z |
Treatment time reduction for large thermal lesions by using a multiple 1D ultrasound phased array system
|
Liu H.-L.;Chen Y.-Y.;Yen J.-Y.;Win-Li Lin; Liu H.-L.; Chen Y.-Y.; Yen J.-Y.; Win-Li Lin |
| 臺大學術典藏 |
2020-02-26T09:01:11Z |
Pilot point temperature regulation for thermal lesion control during ultrasound thermal therapy
|
Liu H.-L.;Chen Y.-Y.;Yen J.-Y.;Win-Li Lin; Liu H.-L.; Chen Y.-Y.; Yen J.-Y.; Win-Li Lin |
| 臺大學術典藏 |
2020-02-26T09:01:09Z |
The investigation of contrast-agent enhanced ultrasound thermal effect
|
Tung Y.S.;Wu C.C.;Liu H.L.;Ju K.C.;Chen W.S.;Win-Li Lin; Tung Y.S.; Wu C.C.; Liu H.L.; Ju K.C.; Chen W.S.; Win-Li Lin |
