Publication Lists

2023

1.  Fauziah, A. R.; Yeh, L.-H.,*“Engineered Heterogenous Subnanochannel Membranes with a Tri-Continuous Pore Structure of Large Geometry Gradient for Massively Enhanced Osmotic Power Conversion from Organic Solutions”, Adv. Funct. Mater. 2023, n/a, 2306834. (October 2023).                                          (2022 IF: 19.924, Chemistry, Multidisciplinary: 9/230)
2. Huang, T. Y.; Su, Y. C.; Lung, C. A.; Chueh, C. C.; Yeh, L. H.,*“A Switchable Ionic Diode Membrane Enabled by Sub-3 nm Covalent Organic Framework Channels”, Giant, 2023, 100184. (August 2023).
   (2022 IF: 7.0, Chemistry, Multidisciplinary: 50/230)
3. Chu, C. W.; Fauziah, A. R.; Yeh, L. H.,*“Optimizing Membranes for Osmotic Power Generation”, Angewandte Chemie International Edition, 2023, 62, e202303582. (April 2023).
   (2022 IF: 16.6, Chemistry, Multidisciplinary: 13/178)
4. K.T. Huang, W. H. Hung, Y. C. Su, F. C. Tang, L. D. Linh, C. J. Huang, L. H. Yeh,*“Zwitterionic Gradient Double-Network Hydrogel Membranes with Superior Biofouling Resistance for Sustainable Osmotic Energy Harvesting”, Advanced Functional Materials, 2023, 2211316. (February 2023).
   (2021 IF: 19.924, Nanoscience & Nanotechnology: 8/109)
5. R. Y. Zhang, M. Gao, W. R. Liu, W. H. Chiang,* L. H. Yeh,*“A Graphene/Carbon Black Nanofluidic Membrane with Fast Ion Transport for Enhanced Electrokinetic Energy Generation.”, Carbon, 204, 1-6. (February 2023).
   (2021 IF: 11.307, Chemical & Physical: 30/165)
6. Y. H. Su, W. H. Hung, A. R. Fauziah, Z. S. Siwy, L. H. Yeh,*“A pH gradient induced rectification inversion in asymmetric nanochannels leads to remarkably improved osmotic power”, Chemical Engineering Journal, 456, 141064. (January  2023).
   (2021 IF: 16.744, Engineering & Chemical: 4/143)
   
7. A. R. Fauziaha, C. W. Chu, L. H. Yeh,* “Engineered subnanochannel ionic diode membranes based on metal–organic frameworks for boosted lithium ion transport and osmotic energy conversion in organic solution”, Chemical Engineering Journal, 452, 139244. (January  2023).
   (2021 IF: 16.744, Engineering & Chemical: 4/143)

   ---

2022(1 paper)

1. W. Chang, C. W. Chu, Y. S. Su, L. H. Yeh,* “Space Charge Enhanced Ion Transport in Heterogeneous Polyelectrolyte/Alumina Nanochannel Membranes for High-Performance Osmotic Energy Conversion”, Journal of Materials Chemistry A, 10, 2867-2875 (February 2022). (Featured on inside front cover)
   (2020 IF: 12.732, Energy & Fuels: 8/114)

---

2021 (4 papers)

1. C. Tsai, Y. S. Su, M. Gao, L. H. Yeh,^* “Realization of Robust Mesoscale Ionic Diodes for Ultrahigh Osmotic Energy Generation at Mild Neutral pH”, Journal of Materials Chemistry A, 9, 20502-20509 (September 2021). (HOT Papers).
   (2020 IF: 12.732, Energy & Fuels: 8/114)
   
2. Y. S. Su, S. C. Hsu, P. H. Peng, J. Y. Yang, M. Gao, L. H. Yeh,^* “Unraveling the Anomalous Channel-Length-Dependent Blue Energy Conversion Using Engineered Alumina Nanochannels”, Nano Energy, 84, 105930 (June 2021).
   (2020 IF: 17.881, Material Science, Multidisciplinary: 16/334)
   
3. C. Liu,¹ L. H. Yeh,^1,* M. J. Zheng, K. C. W. Wu,^* “Highly Selective and High-Performance Osmotic Power Generators in Subnanochannel Membranes Enabled by Metal-Organic Frameworks”, Science Advances, 7, eabe9924 (March 2021).
   (2020 IF: 14.136, Multidisciplinary Sciences: 5/72)
   
4. H. Lin, W. S. Hsu, A. Preet, L. H. Yeh, Y. H. Chen, Y. P. Pao, S. F. Lin, S. Lee, J. C. Fan, L. Wang, Y. P. Chiu, B. S. Yip, T. E. Lin,* “Ingestible Polysaccharide Battery Coupled with a Self-charging Nanogenerator for Controllable Disinfection System”, Nano Energy, 79, 105440 (January 2021).
   (2020 IF: 17.881, Material Science, Multidisciplinary: 16/334)

---

2020 (5 papers)

1. Gao, P. C. Tsai, Y. S. Su, P. H. Peng, L. H. Yeh,^* “Single Mesopores with High Surface Charges as Ultrahigh Performance Osmotic Power Generators”, Small, 16, 2006013 (December 2020).
   (2019 IF: 11.459, Material Science, Multidisciplinary: 23/314)
   
2. C. Zheng, L. H. Yeh,^* “Improved Rectification and Osmotic Power in Polyelectrolyte-Filled Mesopores”, Micromachines, 11, 949 (2020).
   (2019 SCI Impact Factor: 2.524, Instruments & Instrumentation: 24/64)
   
3. H. Chao,¹ L. H. Yeh,¹ R. T. Wu, K. Kawagishi, S. C. Hsu,^* “Novel Patterned Sapphire Substrates for Enhancing the Efficiency of GaN-Based Light-Emitting Diodes”, RSC Advances, 10, 16284-16290 (2020). (1: co-first authors)
   (2019 IF: 3.119, Chemistry, Multidisciplinary: 73/177)
   
4. H. Peng, H. C. Ou Yang, P. C. Tsai, L. H. Yeh,^* “Thermal Dependence of the Mesoscale Ionic Diode: Modeling and Experimental Verification”, ACS Applied Materials & Interfaces, 12, 17139-17146 (April 2020).
   (2018 IF: 8.456, Material Science, Multidisciplinary: 27/293)
   
5. Y. Lin,+ P. H. Wong,+ P. H. Wang,+ Z. S. Siwy, L. H. Yeh,* “Electrodiffusioosmosis-Induced Negative Differential Resistance in pH-Regulated Mesopores Containing Purely Monovalent Solutions”, ACS Applied Materials & Interfaces, 12, 3198-3204 (January 2020).
   (2018 IF: 8.456, Material Science, Multidisciplinary: 27/293)

---

2019 (4 papers)

1. H. Yeh,^* Z. Y. Huang, Y. C. Liu, M. J. Deng, T. H. Chou, H. C. Ou Yang, T. Ahamad, S. M. Alshehri, Kevin C. W. Wu, “A Nanofluidic Osmotic Power Generator Demonstrated in Polymer Gel Electrolytes with Substantially Enhanced Performance”, Journal of Materials Chemistry A, 7, 26791-26796 (December 2019).
   (2018 IF: 10.733, Rank in Energy & Fuels: 6/103)
   
2. P. Hsu, T. C. Su, P. H. Peng, S. C. Hsu, L. H. Yeh,^* “Unraveling the Anomalous Surface-Charge-Dependent Osmotic Power Using a Single Funnel-Shaped Nanochannel”, ACS Nano, 13, 13374-13381 (November 2019).
   (2018 IF: 13.903, Rank in Material Science, Multidisciplinary: 18/293)
   
3. J. Deng,^* L. H. Yeh, Y. H. Lin, J. M. Chen, T. H. Chou,^* “3D Network V₂O₅ Electrodes in a Gel Electrolyte for High-Voltage Wearable Symmetric Pseudocapacitors”, ACS Applied Materials & Interfaces, 11, 29838-29848 (August 2019).
   (2018 IF: 8.456, Material Science, Multidisciplinary: 27/293)
   
4. Y. Lin, C. Combs, L. H. Yeh,* Y. S. Su, Z. S. Siwy,* “Rectification of Concentration Polarization in Mesopores Leads To High Conductance Ionic Diodes and High Performance Osmotic Power”, Journal of the American Chemical Society, 141, 3691-3698 (February 2019).
   (2018 SCI Impact Factor: 14.695, Rank in Chemistry, Multidisciplinary: 12/172)

---

2018 (3 papers)

1. J. Deng, T. H. Chou, L. H. Yeh,^* J. M. Chen, K. T. Lu, “4.2 V Wearable Asymmetric Supercapacitor Devices Based on VOx//MnOx Paper Electrode and Eco-Friendly Deep Eutectic Solvent-Based Gel Electrolyte”, Journal of Materials Chemistry A, 6, 20686-20694 (November 2018). (Featured on inside back cover)
   (2018 IF: 10.733, Rank in Energy & Fuels: 6/103)
   
2. Y. Lin, J. P. Hsu, L. H. Yeh,^* “Rectification of Ionic Current in Nanopores Functionalized with Bipolar Polyelectrolyte Brushes”, Sensors and Actuators B: Chemical, 258, 1223-1229 (April 2018).
   (2018 SCI Impact Factor: 6.393, Rank in Instruments & Instrumentation: 2/61)
3. Y. Lin, L. H. Yeh,* Z. S. Siwy,* “Voltage Induced Modulation of Ionic Concentrations and Ion Current Rectification in Mesopores with Highly Charged Pore Walls”, Journal of Physical Chemistry Letters, 9, 393-398 (January 2018).
   (2017 SCI Impact Factor: 8.709, Rank in Physics, Atomic, Molecular & Chemical: 3/36)

---

2017 (3 papers)

1. H. Yeh,^* F. Chen, Y. T. Chiou, Y. S. Su, “Anomalous pH-Dependent Nanofluidic Salinity Gradient Power”, Small, 13, 1702691 (December 2017). (Featured on frontispiece cover).
   (2017 SCI Impact Factor: 9.598, Rank in Material Science, Multidisciplinary: 22/285)
   
2. Ma, Y. S. Su, S. Qian, L. H. Yeh,^* “Analytical Model for Surface-Charge-Governed Nanochannel Conductance”, Sensors and Actuators B: Chemical, 247, 697-705 (August 2017).
   (2017 SCI Impact Factor: 5.667, Rank in Instruments & Instrumentation: 2/61)
3. Mei, L. H. Yeh,^* S. Qian, “Buffer Anions Can Enormously Enhance the Electrokinetic Energy Conversion in Nanofluidics with Highly Overlapped Double Layers”, Nano Energy, 32, 374-381 (February 2017).
   (2017 SCI Impact Factor: 13.120, Rank in Physics, Applied: 7/146)

---

2016 (7 papers)

1. Y. Lin, F. Chen, L. H. Yeh,^* J. P. Hsu, “Salt Gradient Driven Ion Transport in Solid-State Nanopores: The Crucial Role of Reservoir Geometry and Size”, Physical Chemistry Chemical Physics, 18, 30160-30165 (November 2016).
   (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35, Top 17 %)
   
2. Zhou, L. H. Yeh, F. C. Li, B. Mauroy, S. W. Joo,^* “Deformability-Based Electrokinetic Particle Separation”, Micromachines, 7, 170 (September 2016).
   (2016 SCI Impact Factor: 1.833, Rank in Instruments & Instrumentation: 23/58)
   
3. Y. Qiu,¹ Y. Lin,¹ P. Hinkle, T. S. Plett, C. Yang, J. V. Chacko, M. A. Digman, L. H. Yeh,^* J. P. Hsu,^* Z. S. Siwy,^* “Highly Charged Particles Cause a Larger Current Blockage in Micropores Compared to Neutral Particles”, ACS Nano, 10, 8413-8422 (August 2016).(2016 SCI Impact Factor: 13.942, Rank in Material Science, Multidisciplinary: 9/275, Top 4 %)
   
   
4. S. Cheng,^* J. H. Wu, L. H. Yeh, “Utilization of Calophyllum Inophyllum Shell and Kernel Oil Cake for Reducing Sugar Production”, Bioresource Technology, 212, 338-341 (June 2016).
   (2016 SCI Impact Factor: 5.651, Rank in Agricultural Engineering: 1/14, Top 8 %)
5. Zhou, L. Mei, Y. S. Su, L. H. Yeh,^* X. Zhang, S. Qian “Gated Ion Transport in a Soft Nanochannel with Biomimetic Polyelectrolyte Brush Layers”, Sensors and Actuators B: Chemical, 229, 305-314 (June 2016).
   (2016 SCI Impact Factor: 5.401, Rank in Instruments & Instrumentation: 2/58, Top 4 %)
   
6. Mei, T. H. Chou, Y. S. Cheng, M. J. Huang, L. H. Yeh,^* S. Qian, “Electrophoresis of pH-Regulated Nanoparticles: Impact of the Stern Layer”, Physical Chemistry Chemical Physics, 18, 9927-9934 (April 2016). (Featured on the outside front cover)
   (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35, Top 17 %)
   
7. Mei,¹ L. H. Yeh,^1,* S. Qian,^* “Gate Modulation of Proton Transport in a Nanopore”, Physical Chemistry Chemical Physics, 18, 7449-7458 (March 2016).
   (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35, Top 17 %)

---

2015 (7 papers)

1. P. Zeng,¹ L. H. Yeh,^1,* M. Zhang, S. Qian, “Ion Transport and Selectivity in Biomimetic Nanopores with pH-Tunable Zwitterionic Polyelectrolyte Brushes”, Nanoscale, 7, 17020-17029 (October 2015).
   (2016 SCI Impact Factor: 7.367, Rank in Material Science, Multidisciplinary: 23/275, Top 9 %)
2. Y. Lin,¹ L. H. Yeh,^1,* J. P. Hsu, S. Tseng, “Regulating Current Rectification and Nanoparticle Transport through a Salt Gradient in Bipolar Nanopores”, Small, 35, 4594-4602 (September 2015).
   (2016 SCI Impact Factor: 8.643, Rank in Material Science, Multidisciplinary: 20/275, Top 8 %)
3. H. Yeh,^* Y. Ma, S. Xue, S. Qian, “Gate Manipulation of Ionic Conductance in a Nanochannel with Overlapped Electric Double Layers”, Sensors and Actuators B: Chemical, 215, 266-271 (August 2015).
   (2016 SCI Impact Factor: 5.401, Rank in Instruments & Instrumentation: 2/58, Top 4 %)
4. J. Huang, L. Mei, L. H. Yeh,^* S. Qian, “pH-Regulated Nanopore Conductance with Overlapped Electric Double Layers”, Electrochemistry Communications, 55, 60-63 (June 2015).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
5. Ma,¹ L. H. Yeh,^1,* C. Y. Lin, L. Mei, S. Qian, “pH-Regulated Ionic Conductance in a Nanochannel with Overlapped Electric Double Layers”, Analytical Chemistry, 87, 4508-4514 (April 2015).
   (2016 SCI Impact Factor: 6.320, Rank in Chemistry, Analytical: 4/76, Top 5 %)
6. Mei,¹ L. H. Yeh,^1,* S. Qian, “Buffer Effect on the Ionic Conductance in a pH-Regulated Nanochannel”, Electrochemistry Communications, 51, 129-132 (February 2015).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
7. H. Liang,¹ L. H. Yeh,¹ P. W. Liao, T. H. Chou,^* “Characterization and In Vitro Biocompatibility of Catanionic Assemblies Formed with Oppositely Charged Dicetyl Amphiphiles”, Colloids and Surfaces B: Biointerfaces, 126, 10-17 (February 2015). (1: co-first author)
   (2016 SCI Impact Factor: 3.887, Rank in Biophysics: 16/72)

---

2014 (10 papers)

1. Atalay, L. H. Yeh,^* S. Qian,^* “Proton Enhancement in an Extended Nanochannel”, Langmuir, 30, 13116-13120 (November 2014).
   (2016 SCI Impact Factor: 3.833, Rank in Material Science, Multidisciplinary: 54/275)
2. H. Yeh,^* Y. Ma, S. Xue, S. Qian, “Electroviscous Effect on the Streaming Current in a pH-Regulated Nanochannel”, Electrochemistry Communications, 48, 77-80 (November 2014).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
3. Ma, S. Xue, S. C. Hsu, L. H. Yeh,^* S. Qian,^* H. Tan, “Programmable Ionic Conductance in a pH-Regulated Gated Nanochannel”, Physical Chemistry Chemical Physics, 16, 20138-20146 (October 2014).
   (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35)
4. Miline,¹ L. H. Yeh,^1,* T. H. Chou, S. Qian,^* “Tunable Donnan Potential and Electrokinetic Flow in a Biomimetic Gated Nanochannel with pH-Regulated Polyelectrolyte Brushes”, Journal of Physical Chemistry C, 118, 19806-19813 (August 2014).
   (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
5. Ma,¹ L. H. Yeh,^1,* S. Qian, J. P. Hsu, S. Tseng, “Analytical Model for Surface Charge Property of pH-Regulated Nanorods”, Electrochemistry Communications, 45, 75-78 (August 2014).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
6. Ma,¹ L. H. Yeh,^1,* S. Qian,^* “pH-Regulated Ionic Conductance in a Nanopore”, Electrochemistry Communications, 43, 91-94 (June 2014).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
7. H. Chou,^* C. W. Chen, C. H. Liang, L. H. Yeh, S. Qian, “Simple Synthesis, Self-Assembly, and Cytotoxicity of Novel Dimeric Cholesterol Derivatives”, Colloids and Surfaces B: Biointerfaces, 116, 153-159 (April 2014).
   (2016 SCI Impact Factor: 3.887, Rank in Biophysics: 16/72)
8. Xue,¹ L. H. Yeh,^1,* Y. Ma, S. Qian, “Tunable Streaming Current in a pH-Regulated Nanochannel by a Field Effect Transistor”, Journal of Physical Chemistry C, 118, 6090-6099 (March 2014).
   (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
9. H. Yeh,^* C. Hughes, Z. Zeng, S. Qian, “Tuning Ion Transport and Selectivity by a Salt Gradient in a Charged Nanopore”, Analytical Chemistry, 86, 2681-2686 (March 2014).
   (2016 SCI Impact Factor: 6.320, Rank in Chemistry, Analytical: 4/76, Top 5 %)
10. H. Chou,^* C. H. Liang, Y. C. Lee, L. H. Yeh, “Effects of Lipid Composition on Physicochemical Characteristics and Cytotoxicity of Vesicles Composed of Cationic and Anionic Dialkyl Lipids”, Physical Chemistry Chemical Physics, 16, 1545-1553 (January 2014).
    (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35)

 

---

2013 (9 papers)

1. Benson,¹ L. H. Yeh,^1,* T. H. Chou, S. Qian,^* “Field Effect Regulation of Donnan Potential and Electrokinetic Flow in a Functionalized Soft Nanochannel”, Soft Matter, 9, 9767-9773 (November 2013).
   (2016 SCI Impact Factor: 3.889, Rank in Physics, Multidisciplinary: 9/79)
2. Wang, N. Hu,^* L. H. Yeh, X. Zheng, J. Yang,^* S. W. Joo,^* S. Qian,^* “Electroformation and Electrofusion of Giant Vesicles in a Microfluidic Device”, Colloids and Surfaces B: Biointerfaces, 110, 81-87 (October 2013).
   (2016 SCI Impact Factor: 3.887, Rank in Biophysics: 16/72)
3. H. Liang, W. Y. Ho, L. H. Yeh, Y. S. Cheng, T. H. Chou,^* “Effects of 1-hexadecyl-3-methylimidazolium Ionic Liquids on the Physicochemical Characteristics and Cytotoxicity of Phosphatidylcholine Vesicles”, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 436, 1083-1091 (September 2013).
   (2016 SCI Impact Factor: 2.714, Rank in Chemistry, Physical: 65/146)
4. H. Yeh,^* M. Zhang, S. Qian, “Ion Transport in a pH-Regulated Nanopore”, Analytical Chemistry, 85, 7527-7534 (August 2013).
   (2016 SCI Impact Factor: 6.320, Rank in Chemistry, Analytical: 4/76, Top 5 %)
5. Tseng, J. P. Hsu,^* H. M. Lo, L. H. Yeh,^* “Electrophoresis of a Soft Sphere in a Necked Cylindrical Pore”, Physical Chemistry Chemical Physics, 15, 11758-11765 (July 2013).
   (2016 SCI Impact Factor: 4.123, Rank in Physics, Atomic, Molecular & Chemical: 6/35)
6. Hughes,¹ L. H. Yeh,^1,* S. Qian,^* “Field Effect Modulation of Surface Charge Property and Electroosmotic Flow in a Nanochannel: Stern Layer Effect”, Journal of Physical Chemistry C, 117, 9322-9331 (May 2013).
   (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
7. Liu, L. Zhao, J. Yang,^* X. Wang, N. Hu,^* L. H. Yeh, S. W. Joo, S. Qian, “Low-Voltage Pulsed Electric Field Sterilization on a Microfluidic Chip”, Electroanalysis, 25, 1301-1309 (May 2013).
   (2016 SCI Impact Factor: 2.851, Rank in Chemistry, Analytical: 21/76)
8. Tseng, C. Y. Lin, J. P. Hsu,^* L. H. Yeh,^* “Electrophoresis of Deformable Polyelectrolytes in a Nanofluidic Channel”, Langmuir, 29, 2446-2454 (February 2013).
   (2016 SCI Impact Factor: 3.833, Rank in Material Science, Multidisciplinary: 54/275)
9. Tseng, T. H. Hsieh, L. H. Yeh, N. Wang, J. P. Hsu,^* “Electrophoresis of a Charge-Regulated Soft Sphere: Importance of Effective Membrane Charge”, Colloids and Surfaces B: Biointerfaces, 102, 864-870 (February 2013).
   (2016 SCI Impact Factor: 3.887, Rank in Biophysics: 16/72)

---

2012 (16 papers)

1. H. Yeh, M. Zhang, S. W. Joo,^* S. Qian,^* “Slowing down DNA Translocation through a Nanopore by Lowering Fluid Temperature”, Electrophoresis, 33, 3458-3465 (December 2012). (Selected in the special issue on next-generation technologies for DNA-sequencing and genotyping)
   (2016 SCI Impact Factor: 2.744, Rank in Chemistry, Analytical: 24/76)
2. H. Yeh, M. Zhang, S. W. Joo, S. Qian,^* J. P. Hsu,^* “Controlling pH-Regulated Bionanoparticles Translocation through Nanopores with Polyelectrolyte Brushes”, Analytical Chemistry, 84, 9615-9622 (November 2012).
   (2016 SCI Impact Factor: 6.320, Rank in Chemistry, Analytical: 4/76, Top 5 %)
3. H. Yeh, Y. H. Tai, N. Wang, J. P. Hsu,^* S. Qian,^* “Electrokinetics of pH-Regulated Zwitterionic Polyelectrolyte Nanoparticles”, Nanoscale, 4, 7575-7584 (November 2012).
   (2016 SCI Impact Factor: 7.367, Rank in Material Science, Multidisciplinary: 23/275, Top 9 %)
4. P. Hsu,^* H. M. Lo, L. H. Yeh, S. Tseng,^* “Importance of Boundary on the Electrophoresis of a Soft Cylindrical Particle”, Journal of Physical Chemistry B, 116, 12626-12632 (October 2012).
   (2016 SCI IF: 3.177, Rank in Chemistry, Physical: 49/146)
5. P. Hsu,^* C. P. Yee, L. H. Yeh, “Importance of Electroosmotic Flow and Multiple Ionic Species on the Electrophoresis of a Rigid Sphere in a Charge-Regulated Zwitterionic Cylindrical Pore”, Langmuir, 28, 10942-10947 (2012).
   (2016 SCI Impact Factor: 3.833, Rank in Material Science, Multidisciplinary: 54/275)
6. H. Yeh, M. Zhang, N. Hu, S. W. Joo, S. Qian,^* J. P. Hsu,^* “Electrokinetic Ion and Fluid Transport in Nanopores Functionalized by Polyelectrolyte Brushes”, Nanoscale, 4, 5169-5177 (August 2012).
   (2016 SCI Impact Factor: 7.367, Rank in Material Science, Multidisciplinary: 23/275, Top 9 %)
7. P. Hsu,^* C. Y. Lin, L. H. Yeh, S. H. Lin, “Influence of the Shape of a Polyelectrolyte on Its Electrophoretic Behavior”, Soft Matter, 8, 9469-9479 (2012). (Selected in the theme issue of “Polyelectrolytes in biology and soft matter”)
   (2016 SCI Impact Factor: 3.889, Rank in Physics, Multidisciplinary: 9/79)
8. H. Yeh, M. Zhang, S. Qian,^* J. P. Hsu,^* S. Tseng, “Ion Concentration Polarization in Polyelectrolyte-Modified Nanopores”, Journal of Physical Chemistry C, 116, 8672-8677 (2012).
   (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
9. H. Yeh, J. P. Hsu,^* S. Qian,^* S. Tseng, “Counterion Condensation in pH-Regulated Polyelectrolytes”, Electrochemistry Communications, 19, 97-100 (2012).
   (2016 SCI Impact Factor: 4.396, Rank in Electrochemistry: 5/29)
10. H. Yeh, M. Zhang, S. Qian,^* J. P. Hsu,^* “Regulating DNA Translocation through Functionalized Soft Nanopores”, Nanoscale, 4, 2685-2693 (2012).
    (2016 SCI Impact Factor: 7.367, Rank in Material Science, Multidisciplinary: 23/275, Top 9 %)
11. Zhang,¹ L. H. Yeh,¹ S. Qian,^* J. P. Hsu,^* S. W. Joo, “DNA Electrokinetic Translocation through a Nanopore: Local Permittivity Environment Effect”, Journal of Physical Chemistry C, 116, 4793-4801 (2012). (1: Co-first authors)
    (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
12. H. Yeh, S. Xue, S. W. Joo, S. Qian,^* J. P. Hsu,^* “Field Effect Control of Surface Charge Property and Electroosmotic Flow in Nanofluidics”, Journal of Physical Chemistry C, 116, 4209-4216 (2012).
    (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
13. P. Hsu,^* H. T. Huang, L. H. Yeh, S. Tseng, “Electrophoresis of a Particle at an Arbitrary Surface Potential and Double Layer Thickness: Importance of Nonuniformly Charged Conditions”, Langmuir, 28, 2997-3004 (2012).
    (2016 SCI Impact Factor: 3.833, Rank in Material Science, Multidisciplinary: 54/275)
14. H. Yeh,^* K. L. Liu, J. P. Hsu,^* “Importance of Ionic Polarization Effect on the Electrophoretic Behavior of Polyelectrolyte Nanoparticles in Aqueous Electrolyte Solutions”, Journal of Physical Chemistry C, 116, 367-373 (2012).
    (2016 SCI Impact Factor: 4.536, Rank in Material Science, Multidisciplinary: 43/275)
15. P. Hsu,^* Y. H. Tai, L. H. Yeh, S. Tseng, “Importance of Temperature Effect on the Electrophoretic Behavior of Charge-Regulated Particles”, Langmuir, 28, 1013-1019 (2012).
    (2016 SCI Impact Factor: 3.833, Rank in Material Science, Multidisciplinary: 54/275)L. Liu, J. P. Hsu,^* W. L. Hsu, L. H. Yeh, S. Tseng, “Diffusiophoresis of a Polyelectrolyte in a Salt Concentration Gradient”, Electrophoresis, 33, 1068-1078 (2012).
    (2016 SCI Impact Factor: 2.744, Rank in Chemistry, Analytical: 24/76)

---

2011 (3 papers)

1. H. Yeh, K. Y. Fang, J. P. Hsu,^* S. Tseng, “Influence of Boundary on the Effect of Double-Layer Polarization and the Electrophoretic Behavior of Soft Biocolloids”, Colloids and Surfaces B: Biointerfaces, 88, 559-567 (2011).
2. P. Hsu,^* Y. H. Tai, L. H. Yeh, and S. Tseng, “Electrophoresis of a Charge-Regulated Sphere in a Narrow Cylindrical Pore Filled with Multiple Ionic Species”, Journal of Physical Chemistry B, 115, 3972-3980 (2011).
3. H. Yeh and J. P. Hsu,^* “Effects of Double-Layer Polarization and Counterion Condensation on the Electrophoresis of Polyelectrolytes”, Soft Matter, 7, 396-411 (January 2011).

---

2010 (4 papers)

1. P. Hsu,^* K. L. Liu, W. L. Hsu, L. H. Yeh, S. Tseng, “Diffusiophoresis of a Soft Sphere Normal to Two Parallel Disks”, Langmuir, 26, 16037-16047 (2010).
2. H. Yeh, J. P. Hsu,^* S. Tseng, “Electrophoresis of a Membrane-Coated Cylindrical Particle Positioned Eccentrically along the Axis of a Narrow Cylindrical Pore”, Journal of Physical Chemistry C, 114, 16576-16587 (2010).
3. P. Hsu,^* K. L. Liu, W. L. Hsu, L. H. Yeh, S. Tseng, “Diffusiophoresis of a Charge-Regulated Spherical Particle Normal to Two Parallel Disks”, Journal of Physical Chemistry B, 114, 2766-2778 (2010).
4. Zhang, J. P. Hsu,^* Z. S. Chen, L. H. Yeh, M. H. Ku, S. Tseng, “Electrophoresis of a Charge-Regulated Soft Sphere in a Charged Cylindrical Pore”, Journal of Physical Chemistry B, 114, 1621-1631 (2010).

---

2009 (2 papers)

1. H. Yeh and J. P. Hsu,^* “Electrophoresis of a Finite Rod along the Axis of a Long Cylindrical Microchannel Filled with Carreau Fluids”, Microfluidics and Nanofluidics, 7, 383-392 (2009).
2. P. Hsu,^* C. Y. Chen, L. H. Yeh, S. Tseng, “Boundary Effect on Electrophoresis in a Carreau Fluid: Simulated Biocolloids at an Arbitrary Position in a Charged Spherical Cavity” Colloids and Surfaces B: Biointerfaces, 69, 8-14 (2009).

---

2008 (1 paper)

1. P. Hsu,^* S. J. Yeh, L. H. Yeh, S. Tseng, C. J. Chen, “Translation of Two Co-Axial, Nonhomogeneously Structured Flocs Normal to a Plate” Colloid and Polymer Science, 286, 1593-1604 (2008).

---

2007 (6 papers)

1. P. Hsu,^* L. H. Yeh, S. J. Yeh, “Electrophoresis of a Rigid Sphere in a Carreau Fluid Normal to a Large Charged Disk” Journal of Physical Chemistry B, 111, 12351-12361 (2007).
2. P. Hsu,^* Z. S. Chen, M. H. Ku, L. H. Yeh, “Effect of Charged Boundary on Electrophoresis: Sphere in Spherical Cavity at Arbitrary Potential and Double Layer Thickness”, Journal of Colloid and Interface Science, 314, 256-263 (2007).
3. P. Hsu^* and L. H. Yeh, “Effect of a Charged Boundary on Electrophoresis in a Carreau Fluid: A Sphere at an Arbitrary Position in a Spherical Cavity”, Langmuir, 23, 8637-8646 (2007).
4. P. Hsu,^* L. H. Yeh, Z. S. Chen, “Effect of a Charged Boundary on Electrophoresis: A Sphere at an Arbitrary Position in a Spherical Cavity”, Journal of Colloid and Interface Science, 310, 281-291 (2007).
5. P. Hsu^* and L. H. Yeh, “Electrophoresis of Two Identical Rigid Spheres in a Charged Cylindrical Pore”, Journal of Physical Chemistry B, 111, 2579-2586 (2007).
6. P. Hsu,^* L. H. Yeh, M. H. Ku, “Evaluation of the Electric Force in Electrophoresis”, Journal of Colloid and Interface Science, 305, 324-329 (2007).

---

2006 (2 papers)

1. P. Hsu^* and L. H. Yeh, “Comparison of Three Methods for the Evaluation of the Electric Force on a Particle in Electrophoresis”, Journal of the Chinese Institute of Chemical Engineering, 37, 601-607 (2006).
2. P. Hsu,^* L. H. Yeh, M. H. Ku, “Electrophoresis of a Spherical Particle along the Axis of a Cylindrical Pore Filled with a Carreau Fluid”, Colloid and Polymer Science, 284, 886-892 (2006).

• Book Chapters:

1. H. Yeh and J. P. Hsu, “Electrophoretic Behavior of pH-regulated Soft Biocolloids”, in “Encyclopedia of Biocolloid and Biointerface Science”, Hiroyuki Ohshima, Ed., John Wiley & Sons, Inc., New York, United States, pp. 946-960, ISBN: 978-1-118-54276-7 (September 2016).
2. Qian and L. H. Yeh, “DNA Electrokinetic Translocation through a Nanopore”, in “Computational Bioengineering”, Guigen Zhang, Ed., CRC Press, Taylor & Francis, pp. 377-400, ISBN: 978-1-4665-1755-4 (April 2015).
3. H. Yeh and J. P. Hsu, “Electrophoresis of Soft Particles in a Confined Space”, in “Electrical Phenomena at Interfaces and Biointerfaces: Fundamentals and Applications in Nano-, Bio, and Environmental Sciences”, Hiroyuki Ohshima, Ed., John Wiley & Sons, Inc., New York, pp. 61-94, ISBN: 978-1-1181-3542-6 (2012).