61. “Wireless, Flexible, and Disposable Sensing Devices Enabling Real-time Long-term Patient Medical Care for Pressure Injury Prevention”

       Chang TS, Chien CW, Guerra EI, Wang TY, Huang CW, Lin YS, Chang JC*, and Liao WS* Journal of Materials Chemistry C 13 (2025): 7943

60. “Gas Phase Alloyed Crystalline S-Se Dielectrics with High Ionic Mobility”

       Chand PK, Raman R, Yen ZL, Santos ID, Liao WS, Hsieh YP, and Hofmann M* Journal of Science: Advanced Materials and Devices 9 (2024): 100763

59. “Effects of Chain‑Chain Interaction on the Configuration of Short‑Chain Alkanethiol Self‑Assembled Monolayers on a Metal Surface”

      Liao CL, Faizanuddin SM, Haruyama J, Liao WS*, and Wen YC* The Journal of Chemical Physics 160 (2024): 214711

58. “Nanofabrication and Sensing Technology: from the Interface-Mediated Mechanism Point-of-View”

      Kar P, Guerra EI, and Liao WS* Advanced Sensor Research 3 (2024): 2400031

57. “Spatially Mediated Paper Reactors for On-Site Multi-Coded Encryption”

      Chen JS, Wang CM, Chiang, PY, Lo LC*, and Liao WS* JACS Au 4 (2024): 2151

56. “Switchable Noncontinuous Circuits for All Pressure-Range-Sensitive Units”

      Chang CW, Chen JS, Wang CM, Chang TS,  and Liao WS* Cell Reports Physical Science 5 (2024): 101887

55. “A Novel Liquid Crystal Aptasensor via DNA Aptamer Conformational Change for On-Site Detection of Cocaine in Sewage”

       Chen WR, Wang SH, Liao WS, Chen CH, and Chen PS* Sensors and Actuators B: Chemical 401 (2024): 135076

54. “Specializing Carbon Nanozyme Active Sites for Sensitive Alkaline Phosphatase Activity Metal-Free Detection”

       Hsieh PH, Yeh CY, Wang CM, Liao WS*, and Chen CY* Chemistry - An Asian Journal 19(2023): e202300878

53. “Tunable Micro/Nanomaterial Encapsulation in Porous Melamine Sponges by Rotational Vortexing: Implications for Functional Nanomaterial Recycling”

       Chen JS,  Chien LS, Wang CM, Hsieh CH,  and Liao WS* ACS Applied Nano Materials 6 (2023): 15663-15672

52. “Creating Liquid Crystal Microdroplet Arrays for Multiplexed Sensing by Spatially-Controlled Molecular Patterning”

      Chang CY, Chen, WR, Kar P, Liao WS*,  and Chen CH* Sensors and Actuators B: Chemical 393 (2023): 134253

51. “Heavy Metal-Free Electrochemical Detection of Pyrophosphate Ions by Nafion/Carbon Dots Decorated Screen Printed Carbon Electrodes”

       Chang CW and Liao WS*  Journal of the Chinese Chemical Society  1 (2023): 1-8

50. “Guiding Metal Organic Framework Morphology via Monolayer Artificial Defect-Induced Preferential Facet Selection”

      Kar P, Wang CM, Liao CL, Chang TS, and Liao WS*  JACS Au 3 (2023): 1118-1130

49. “Gap-Directed Chemical Lift-Off Lithographic Nanoarchitectonics for Arbitrary Sub-Micrometer Patterning”

      Wang CM, Chan HS, Liao CL, Chang CW, and Liao WS* Beilstein Journal of Nanotechnology 14 (2023): 34-44

48. “Moldable Carbon Dot-Linked Elastomers for Three-Dimensional Arbitrary Fluorescent Structures”

      Chen CY, Hsieh PH, Wang CM, Chang TS, and Liao WS* ACS Applied Nano Materials 6 (2023): 804-810

47. “Versatile Azido-Functionalized Carbon Dots for Cancer Cell Imaging”

      Lee HY, Chiang PY, Wu HJ, Wang TY,  Yang TC,  Cheng WC*, Lo LC*, and Liao WS* ACS Applied Nano Materials 5 (2022): 12374-12379

46. “Metal-Free Transparent Three-Dimensional Flexible Electronics by Selective Molecular Bridges ”

      Chang WS, Chang TS, Wang CM, and Liao WS* ACS Applied Materials & Interfaces 14 (2022): 22826-22837

45. “Structural and Optical Identification of Planar Side-Chain Stacking P3HT Nanowires”

      Chou HC, Fang CK, Chung PY, Yu JR, Liao WS, Chen SH, Chen P, Hwang IS, Chen JT*, and Chen C* Macromolecules 54 (2021): 10750-10757 

44. “Delicate Junction Meniscus Manipulation for Three-Dimensional Nanostructures using Partially Molten Interfaces: Implications for Plasmonic Sensing”

      Wang CM, Lin TY, Liao CL, Lu CY*, and Liao WS* ACS Applied Nano Materials 4 (2021): 10545-10555 

43. “Ultrasensitive and Low-Cost Paper-Based Graphene Oxide Nanobiosensor for Monitoring Water-Borne Bacterial Contamination”

      Karuppiah S, Mishra NC, Tsai WC, Liao WS, and Chou CF* ACS Sensors 6 (2021): 3214-3223 

42. “Manipulating Chemical Processes by Pseudosolid Spatial Limitation ”

      Yi S, Chen JS, Wang CM, and Liao WS*  JACS Au 1 (2021): 1435-1444 

41. “Fluorescence Turn-On Antioxidant Recognition by Interface-Mediated Radical Termination of L‑Cysteine-Capped Gold Nanoclusters”

Kar P, Chang TS, Chen CY, Chen JS, Yi S, Sutradhar S, and Liao WS*  ACS Applied Nano Materials 4 (2021): 3360-3368

40. “Designing Sensing Devices Using Porous Composite Materials”

     Wang CM and Liao WS*  Journal of Composites Science 5 (2021): 35 (Feature Paper) 

39. “Enclosed Paper-Based Analytical Devices: Concept, Variety, and Outlook”

     Wang CM, Chen CY, and Liao WS*  Analytica Chimica Acta 1144 (2021): 158-174 (Feature Article)

38. “A Horizontal-Type Scanning Near-Field Optical Microscope with Torsional Mode Operation toward High-Resolution and Non-Destructive Imaging 

      of Soft Materials”

     Yu JR, Chou HC, Yang CW, Liao WS, Hwang IS, and Chen C* Review of Scientific Instruments  91 (2020): 073703

37. “Metal-Free Colorimetric Detection of Pyrophosphate Ions by Inhibitive Nanozymatic Carbon Dots”

     Chen CY, Tan YZ, Hsieh PH, Wang CM, Shibata H, Maejima K, Wang TY, Hiruta Y, Citterio D*, and Liao WS* ACS Sensors 5 (2020): 1314-1324

36. “Enhancing Piezoresistive Pressure Response Device Sensitivity by Orders of Magnitude”

      Wang CM, Hsieh CH, and Liao WS* Advanced Materials Interfaces 7 (2020): 1902202

35. “Multilayered Ag NPs-PEDOT-Paper Composite Device for Human-Machine Interfacing”

      Tsai YJ, Wang CM, Chang TS, Sutradhar S, Chang CW, Chen CY, Hsieh CH, and Liao WS* ACS Applied Materials & Interfaces 11 (2019): 10380-10388

34. “A Special Connection between Nanofabrication and Analytical Devices: Chemical Lift-Off Lithography ”

      Chen CY, Wang CM, and Liao WS* Bulletin of the Chemical Society of Japan 92 (2019): 600-607

33. “Finely Tunable Surface Wettability by Two-Dimensional Molecular Manipulation”

      Chen CY, Li HH, Chu HY, Wang CM, Chang CW, Lin LE, Hsu CC, and Liao WS* ACS Applied Materials & Interfaces  10 (2018): 41814-41823 

32. “Low-Voltage Driven Portable Paper Bipolar Electrode-Supported Electrochemical Sensing Device”

      Wang CM, Hsieh CH, Chen CY, and Liao WS* Analytica Chimica Acta 1015 (2018): 1-7 (Featured Article)

31. “Surface Functional DNA Density Control by Programmable Molecular Defects”

      Chen CY, Wang CM, Chen PS, and Liao WS* Chemical Communications 54 (2018): 4100-4103

30. “Laminated Copper Nanocluster Incorporated Antioxidative Paper Device with RGB System-Assisted Signal Improvement”

      Chen CY, Chen CL, Wang CM, and Liao WS* Nanomaterials 8 (2018): 97

29. “Large Area Nanoparticle Alignment by Chemical Lift-Off Lithography”

      Chen CY, Chang CH, Wang CM, Li YJ, Chu HY, Chan HH, Huang YW, and Liao WS* Nanomaterials 8 (2018): 71

28. “Wafer‑Scale Bioactive Substrate Patterning by Chemical Lift‑Off Lithography”

      Chen CY, Wang CM, Li HH, Chan HH, and Liao WS* Beilstein Journal of Nanotechnology 9 (2018): 311-320

27. “Self‑Standing Aptamers by An Artificial Defect-Rich Matrix”

      Chen CY, Wang CM, Chen PS, and Liao WS* Nanoscale 10 (2018): 3191-3197

26. “Advancing Biocapture Substrates via Chemical Lift-Off Lithography”

      Cao HH, Nakatsuka N, Liao WS, Serino AC, Cheunkar S, Yang H, Weiss PS*, and Andrews AM* Chemistry of Materials 29 (2017): 6829-6839

25. “Multicolor Functional Carbon Dots via One-Step Refluxing Synthesis”

      Wang TY, Chen CY, Wang CM, Tan YZ, and Liao WS* ACS Sensors 2 (2017): 354-363

24. “Paper-Polymer Composite Devices with Minimal Fluorescence Background”

      Wang CM, Chen CY, and Liao WS* Analytica Chimica Acta 963 (2017): 93-98

23. “Double-Sided Opportunities Using Chemical Lift-Off Lithography”

      Andrews AM*, Liao WS*, and Weiss PS* Accounts of Chemical Research 49 (2016): 1449-1457

22. “Controlled DNA Patterning by Chemical Lift-Off Lithography: Matrix Matters”

      Cao HH, Nakatsuka N, Serino AC, Liao WS, Cheunkar S, Yang H, Weiss PS*, and Andrews AM*, ACS Nano 9 (2015): 11439-11454

21. “Small-Molecule Arrays for Sorting G-Proteins Coupled Receptors”

      Liao WS, Cao HH, Cheunkar S, Shuster MJ, Altieri SC, Weiss PS*, and Andrews AM*, Journal of Physical Chemistry C 117 (2013): 22362-22368

20. “Stepwise Molding, Etching and Imprinting to Form Libraries of Nanopatterned Substrates” 

      Zhao Z, Cai Y, Liao WS, and Cremer PS*, Langmuir 29 (2013): 6737-6745

19. “From the Bottom Up: Dimensional Control and Characterization in Molecular Monolayers”

      Claridge SA, Liao WS, Thomas JC, Zhao Y, Cao HH, Cheunkar S, Serino AC, Andrews AM, and Weiss PS*, Chemical Society Reviews 42 (2013): 2725-2745

18. “Subtractive Patterning via Chemical Lift-Off Lithography”

      Liao WS, Cheunkar S, Cao HH, Bednar HR, Weiss PS*, and Andrews AM*, Science 337 (2012): 1517-1521

17. “Thin Gold Film-Assisted Fluorescence Spectroscopy for Biomolecule Sensing”

      Vaish A, Liao WS, Shuster MJ, Weiss PS*, and Andrews AM*, Analytical Chemistry 83 (2011): 7451-7456

16. “Patterning Small-Molecule Biocapture Surfaces: Microcontact Insertion Printing vs. Photolithography”

      Shuster MJ, Vaish A, Cao HH, Guttentag AI, McManigle JE, Gibb AL, Martinez MM, Nezarati RM, Hinds JM, Liao WS, Weiss PS*, and Andrews, AM*,

     Chemical Communications 47 (2011): 10641-10643

15. “Photoelectrochemical Hydrogen Production from Water/Methanol Decomposition Using Ag/TiO2 Nanocomposite Thin Films”

        Alenzi N, Liao WS, Cremer PS, Sanchez-Torres V, Wood TK, Ehlig-Conomides C, and Cheng Z*, 

        International Journal of Hydrogen Energy 35 (2010): 11768-11775

14. “Benchtop Chemistry for the Rapid Prototyping of Label-Free Biosensors: T-LSPR Platforms”

      Liao WS, Chen X, Yang TL, Castellana ET, Chen J, and Cremer PS*, Biointerphases 4 (2009): 80-85

13. “Evaporation-Induced Assembly of Quantum Dots into Nanorings”

        Chen J, Liao WS, Chen X, Yang TL, Wark SE, Son DH, Batteas JD, and Cremer PS*, ACS Nano 3 (2009): 173-180

12. “Templating Water Stains for Nanolithography”

      Liao WS, Chen X, Chen J, and Cremer PS*, Nano Letters 7 (2007): 2452-2458

11. “A Rapid Prototyping Approach to Ag Nanoparticle Fabrication in the 10-100 nm Range”

      Liao WS, Yang TL, Castellana ET, Kataoka S, and Cremer PS*, Advanced Materials (Communications) 18 (2006): 2240-2243

10. “Enantioseparation of Phenothiazines in CD-Modified CZE Using Single Isomer Sulfated CD as a Chiral Selector” 

      Liao WS, Lin CH, Chen CY, Kuo CM, Liu YC, Wu JC, and Lin CE*, Electrophoresis 28 (2007): 3922-3929

9. “Enantioseparation of Phenothiazines in Cyclodextrin-Modified Capillary Zone Electrophoresis Using Sulfated Cyclodextrins as Chiral Selectors”

     Lin CE*, Liao WS, Cheng HT, Kuo CM, and Liu YC, Electrophoresis 26 (2005): 3869-3877

8. “Enantioseparations of Hydrobenzoin and Structurally Related Compounds in Capillary Zone Electrophoresis Using Heptakis(2,3-Dihydroxy-6-O-Sulfo)-

    Beta-Cyclodextrin as Chiral Selector and Enantiomer Migration Reversal of Hydrobenzoin with a Dual Cyclodextrin System in the Presence of 

    Borate Complexation” 

    Lin CE*, Lin SL, Fang IJ, Liao WS, and Chen CC, Electrophoresis 25 (2004): 2786-2794

7. “Capillary Electrophoretic Studies on the Migration Behavior of Cationic Solutes and the Influence of Interactions of Cationic Solutes with Sodium Dodecyl

    Sulfate on the Formation of Micelles and Critical Micelle Concentration”

    Lin CE*, Fang IJ, Deng YJ, Liao WS, Cheng HT, and Huang WP, Journal of Chromatography A 1051 (2004): 85-94

6. “Electrophoretic Behavior and pKa Determination of Quinolones with a Piperazinyl Substituent by Capillary Zone Electrophoresis” 

    Lin CE*, Deng YJ, Liao WS, Sun SW, Lin WY, and Chen CC, Journal of Chromatography A 1051 (2004): 283-290

5. “Enantioseparation and Enantiomer Migration Reversal of Hydrobenzoin in Capillary Zone Electrophoresis with Dual Cyclodextrin Systems in the Presence

    of Borate Complexation”

    Lin CE*, Lin SL, and Liao WS, Journal of Chromatography A 1032 (2004): 227-235

4. “Enantioseparation of Phenothiazines in Cyclodextrin-Modified Capillary Zone Electrophoresis: Reversal of Migration Order”

    Lin CE*, Liao WS, and Chen KH, Electrophoresis 24 (2003): 3139-3146

3. “Influence of pH on Electrophoretic Behavior of Phenothiazines and Determination of pKa Values by Capillary Zone Electrophoresis”

    Lin CE*, Liao WS, Chen KH, and Lin WY, Electrophoresis 24 (2003): 3154-3159

2. “Separation and Migration Behavior of Structurally Related Phenothiazines in Cyclodextrin-Modified Capillary Zone Electrophoresis”

    Chen KH, Lin CE*, Liao WS, Lin WY, and Hsiao YY, Journal of Chromatography A 979 (2002): 399-408

1. “Enantioseparation of Phenothiazines in Cyclodextrin-Modified Micellar Electrokinetic Chromatography”

    Lin CE*, Chen KH, Hsiao YY, Liao WS, and Chen CC, Journal of Chromatography A 971 (2002): 261-266