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Peer Reviewed SCI Journal Publications

81.   

80.    H. Ryu*, Y. Chen*, A. Chen*, H. Moeinnia*, O. Nemir, S. Khan, and W. S. Kim, 鈥溾 Flexible and Printed Electronics (2024). Link: https://singdirect.iopscience.iop.org/article/10.1088/2058-8585/ad7e36/meta

79.    H. Moeinnia* and W. S. Kim, 鈥溾 npj Flexible Electronics (2024). Link: https://www.nature.com/articles/s41528-024-00309-z

78.    D. Agron* and W. S. Kim, 鈥溾 Analytical Chemistry (2024). Link: https://pubs.acs.org/doi/full/10.1021/acs.analchem.3c05190  

77.    T. Kim*, H. Moeinnia*, and W. S. Kim, 鈥溾 Materials & Design (2023). Link: https://www.sciencedirect.com/science/article/pii/S0264127523007475 

76.    H. Su*, H. Moeinnia* and W. S. Kim, 鈥3D Printed Electromyography Sensing Systems鈥 Advanced Sensor Research (2023). Link:

75.     H. Su*, T. H. Kim*, H. Moeinnia*, and W.S. Kim, 鈥淎 3D Printed Portable EMG Wristband for the Quantitative Detection of Finger Motion鈥 IEEE Sensors Journal in press (2023). Link:  

74.     A. Hassanpour*, T. Kim*, and W.S. Kim, 鈥淓nhanced RF Response of 3D Printed Wireless LC Sensors using Dielectrics with High Permittivity鈥 Flexible and Printed Electronics, 8, pp. 015013 (2023). Link:  

73.     A. Hassanpour*, and W.S. Kim, 鈥淧rinted Wireless Sensing Devices using Radio Frequency Communication鈥 ACS Applied Electronic Materials, 5, pp. 1-10, (2023).  Link:

 

72.     C. Bao*, H. Moeinnia*, and W.S. Kim, 鈥3D Structural Electronics via Multi-directional Robot 3D Printing鈥 Advanced Materials Technologies, pp. 2201349 (2022). Link: 

71.     T. Kim*, A. Hassanpour*, and W.S. Kim, 鈥3D Designed Battery-free Wireless Origami Pressure Sensor鈥 Microsystems & Nanoengineering 8, pp. 120 (2022). Link:

70.      W. Lee*, J. Fritsch*, A. Maqsood, S. Liu, T. Bourassa, R. Calara, and W.S. Kim, 鈥淎daptive 3D Printing for In Situ Adjustment of Mechanical Properties鈥 Advanced Intelligent Systems, pp. 2200229 (2022). Link:

69.     H. Moeinnia*, H. Su*, and W.S. Kim, 鈥淣ovel Grasping Mechanisms of 3D-Printed Prosthetic Hands鈥 Advanced Intelligent Systems, pp. 2200189 (2022). Link:

68.     C. Bao*, H. Su*, and W.S. Kim, 鈥淎 3D Printed Portable Neuromorphic System鈥 IEEE Sensors Letters, 6, pp. 5500203 (2022). Link: https://www.sciencedirect.com/science/article/pii/S2589004222003893

67.     C. Bao*, T. H. Kim*, and W.S. Kim, 鈥3D Integrated Neuromorphic Humanoid Hand by Multi-axis Robot 3D Printing鈥 iScience, 25, pp. 104119 (2022). Link:

66.     T. H. Kim, W. S. Kim, 鈥淚nvolvement of frontline clinicians in healthcare technology development: Lessons learned from a ventilator project鈥, Health and Technology, 12, pp. 597 (2022). Link:  

65.     T. H. Kim*, C. Bao*, and W.S. Kim, 鈥3D printed leech-inspired origami dry electrodes for electrophysiology sensing robots鈥 npj Flexible Electronics, 6, pp. 5 (2022). Link:

64.     W. Heng, G. Yang, W.S. Kim, and K. Xu, 鈥淓merging wearable flexible sensors for sweat analysis鈥 Bio-Design and Manufacturing, 5, pp.64-84 (2021). Link:

63.     T. H. Kim*, X. Min*, and W.S. Kim, 鈥3D architectured air sensing tubes for a portable mechanical ventilator鈥 Flexible and Printed Electronics, 6, pp. 035010 (2021). Link:  

62.    D. Baker*, and W.S. Kim, 鈥淗ighly Conductive 3D Printable Materials for Structural Electronics鈥 ACS Applied Electronic Materials, 3, pp. 2423-2433 (2021). Link:

61.     W.S. Kim and J. Paik, 鈥淪oft Bionic Sensors and Actuators鈥 Advanced Intelligent Systems, 3, pp. 2100003 (2021). Link:

60.     M. Kaur*, T.H. Kim*, and W.S. Kim, 鈥淣ew Frontiers in 3D Structural Sensing Robots鈥 Advanced Materials, 33, pp. 2002534 (2021).  featured as a frontispiece. Link: 

59.     T. Kim*, J. Vanloo鈥, and W.S. Kim, 鈥3D Origami Sensing Robots for Cooperative Healthcare monitoring鈥 Advanced Materials Technologies, 6, pp. 202000938 (2021). featured as inside back cover. Link:

58.   C . Bao*, S.K Seol, and W.S. Kim, 鈥3D Integrated Neuromorphic System鈥 Sensors and Actuators B: Chemicals, 332, pp. 129527 (2021). Link:

57.     X. Min*, and W.S. Kim, 鈥淎n Artificial Xylem Chip: A 3D Printed Vertical Digital Microfluidic Platform鈥 Langmuir, 36, pp. 14841 (2020). Link:

56. C. Bao*, and W.S. Kim, 鈥淗ighly Sensitive and Selective Printed Solid-state Ion Sensors鈥 Advanced Engineering Materials, 22, pp. 2000116 (2020). Link:

55.  S.H. Park*, G. Goodall鈥, and W.S. Kim, 鈥淧erspective on 3D-designed Supercapacitors鈥 Materials & Design, 193, pp. 108797 (2020). Link:

54.     X. Min*, and W.S. Kim, 鈥淏eyond High Voltage in the Digital Microfluidic Devices for an Integrated Portable Sensing Systems鈥 Microfluidics and Nanofluidics, 23, pp. 127 (2019). Link:

53.    T. Kim*, M. Kaur*, and W.S. Kim, 鈥淎ssistive Robot Systems: Humanoid Robot Actuation through Precise Chemical Sensing Signals鈥 Advanced Materials Technologies, 4, pp. 1900570 (2019). featured as a front cover. Link:

52.     M. Kaur*, and W.S. Kim, 鈥淭oward a Smart Compliant Robotic Gripper Equipped with 3D-Designed Cellular Fingers鈥 Advanced Intelligent Systems, 1, pp. 1900019 (2019). featured as a back cover. Link:

51.    X. Min*, C. Bao*, and W.S. Kim, 鈥淎dditively Manufactured Digital Microfluidic Platforms for Ion-selective Sensing鈥 ACS Sensors, 4, pp. 918-923 (2019). Link:

50.     C. Bao*, M. Kaur*, and W.S. Kim, 鈥淭oward a Highly Selective Saliva Sensors using Printed Field Effect Transistors鈥 Sensors and Actuators B: Chemical, 285, pp. 186-192 (2019). Link:  

49.     T. Kim*, C. Bao*, M. Hausmann, G. Siqueira, T. Zimmermann, and W.S. Kim, 鈥3D Printed Disposable Wireless Ion Sensors with Biocompatible Cellulose Composites鈥 Advanced Electronic Materials, 5, pp. 1800778 (2019). featured as a front cover. Link:

48.     S. Park*, M. Kaur*, D. Yun, and W.S. Kim, 鈥淗ierarchically Designed Electron Paths in 3D Printed Energy Storage Devices鈥 Langmuir, 34, pp. 10897-10904 (2018). Link:

47.     Y. Dong*, C. Bao*, and W.S. Kim, 鈥淪ustainable Additive Manufacturing of Printed Circuit Boards鈥 Joule (Cell press), 2, pp. 579-582 (2018). Link:

46.     T. Kim*, and W.S. Kim, 鈥淣ozzle Shape Guided Filler Orientation in 3D Printed Photo-curable Nanocom颅posites鈥 Scientific Reports, 8, pp. 3805 (2018). Link:

45.     Y. Dong*, X. Min*, and W.S. Kim, 鈥淎 Fully 3D-printed PCB-based Electro-chemical Sensor System鈥 IEEE Sensors Journal, 18, pp.2959-2966 (2018). Link:  

44.     M. Kaur*, T. G. Yun, S. M. Han, E. L. Thomas and W.S. Kim, 鈥3D Printed Stretching-dominated Micro-trusses鈥 Materials & Design, 134, pp. 272-280 (2017). Link:

43.     K. Andersen*, Y. Dong*, and W.S. Kim, 鈥淗ighly Conductive 3D Printing with Low-melting Alloy Filament鈥 Advanced Engineering Materials, 19, pp. 1700301 (2017). Link:

42.     J. Park*, T. Kim* and W.S. Kim, 鈥淐onductive Cellulose Composites with Low Percolation Threshold for 3D Printed Electronics鈥 Scientific Reports, 7, pp. 3246 (2017). Link:

41.     H. Hariri, J. Kim*, W. S. Kim, L. Frechette, and P. Masson, 鈥淧erformance Validation of Printed Strain Sensors for Active Control of Intelligent Tires鈥 Applied Acoustics, 123, pp. 73-84 (2017). Link:

40.     L. Jian*, T. Kim*, J. Park*, J. Wang, and W.S. Kim, 鈥淗igh Performance 3D Printed Electronics Using Electrodeless Plated Copper鈥 AIP Advances, 7, pp. 035314 (2017). Link:

39.     M. Kaur*, S. Han, and W.S. Kim, 鈥淭hree-dimensionally printed cellular architecture materials: perspectives on fabrication, material advances, and applications鈥 MRS Communications, 7, pp. 8-19 (2017). Link:

38.     M. Abrar*, Y. Dong*, P. Lee, and W.S. Kim, 鈥淏endable Electro-chemical Lactate Sensor with Printed Silver Nano Ink鈥 Scientific Reports, 6, pp. 30565 (2016). Link:

37.     H. Jang*, and W.S. Kim, 鈥淪hear-induced Dry Transfer of Reduced Graphene Oxide Thin Film via Roll-to-roll Printing鈥 Applied Physics Letters, 108, pp.091601 (2016). Link:

36.    J. Kim*, and W.S. Kim, 鈥淎 Paired Stretchable Printed Sensor System for Ambulatory Blood Pressure Monitoring鈥 Sensors & Actuators: A. Physical, 238, pp. 329-336 (2016). Link:

35.    J. Park*, S. Robinovitch, and W.S. Kim, 鈥淎 Wireless Wristband Accelerometer for Monitoring of Rubber Band Exercise鈥 IEEE Sensors Journal, 16, pp.1143-1150 (2016). Link:

34.    L. Motha鈥, J. Kim*, and W.S. Kim, 鈥淚nstrumented Rubber Insole for Plantar Pressure Sensing鈥 Organic Electronics, 23, pp. 82-86 (2015). Link:

33.     R. Kazemzadeh*, K. Andersen*, L. Motha鈥, and W.S. Kim, 鈥淗ighly Sensitive Pressure Sensor with Reduced Graphene Oxide鈥 IEEE Electron Device Letters, 36, pp. 180-182 (2015). Link:

32.    J. Kim*, and W.S. Kim, 鈥淪tretching Silver: Printed Metallic Nano Inks in Stretchable Conductor Applications鈥 IEEE Nanotechnology Magazine, 8 (4), pp. 6-13 (2014). Link:

31.    J. Kim*, Z. Wang鈥, and W.S. Kim, 鈥淪tretchable RFID for Strain Sensing with Silver Nano Ink鈥 IEEE Sensors Journal, 14 (12), pp. 4395-4401 (2014). Link:

30.    Y. Zhang*, and W.S. Kim, 鈥淗ighly Sensitive Flexible Printed Accelerometer System for Monitoring Vital Signs鈥 Soft Robotics, 1 (2), pp. 132-135 (2014). Link:

29.    H. Son*, J. Park*, J. Huang鈥, J. Kim*, Y. Nam and W.S. Kim, 鈥淔lexible Fibrous Piezo-electric Sensors on Printed Silver Electrodes鈥 IEEE Transactions on Nanotechnology, 13, pp.709-713 (2014). Link:

28.    J. Park*, M. Rezaei*, and W.S. Kim, 鈥淪ustained Percolation in Stretched Silver Nanowire Networks for Stretchable Inter-Connection Applications鈥 Advanced Engineering Materials, 16, pp. 905-908 (2014). Link:

27.    J. Kim*, J. Jong and W.S. Kim, 鈥淩epeatedly Bendable Paper Touch Pad via Direct Stamping of Silver Nanoink With Pressure-Induced Low-Temperature Annealing鈥 IEEE Trans on Nanotechnology, 12, pp. 1139-1143 (2013). Link:

26.     Y. Zhang*, C. Lei鈥, and W.S. Kim, 鈥淒esign-optimized Membrane-based Flexible Paper Accelerometer with Silver Nano Ink鈥 Applied Physics Letters, 103, pp.073304 (2013). Link:

25.     T. Rai鈥, P. Dantes鈥, B. Bahreyni and W.S. Kim, 鈥淪tretchable RF Antenna with Silver Nanowires鈥 IEEE Electron Device Letters, 34pp.544-546 (2013). Link: 

24.    J. Kim*, Tina Ng, and W.S. Kim, 鈥淗ighly Sensitive Tactile Sensor Controlled by OTFT鈥, Applied Physics Letter, 101, pp. 103308 (2012). Link:

23.    J. Kim*, K. Wubs鈥, B.S. Bae, and W.S. Kim, 鈥淒irect Stamping of Silver Nanoparticles toward Residue-free Thick Electrode鈥 Science and Technology of Advanced Materials, 13, pp. 035004 (2012). Link:

22.    J. Kim*, Pinyen Lin, and W.S. Kim, 鈥淢echanically Robust Super-oleophobic Stamp for Direct Stamping of Silver Nanoparticle Ink鈥, Thin Solid Films, 520, pp. 4339-4343 (2012). Link:

21.    T. Akter*, J. Joseph鈥, and W. Kim, 鈥淔abrication of sensitivity tunable flexible force sensor via spray coating of graphite ink鈥, IEEE Electronic Device Letters, 33, pp. 902-904 (2012). Link:  

20.     T. Akter*, and W.S. Kim, 鈥淩eversibly Stretchable Transparent Conductive Coatings of Spray-deposited Silver Nanowires鈥, ACS Applied Materials & Interfaces, 4, pp. 1855-1859 (2012). Link:  

19.    J. Kim*, B. Lew鈥, and W.S. Kim, 鈥淔acile Fabrication of Super-hydrophobic Nano-needle Arrays via Breath Figures Method鈥, Nanoscale Research Letters, 6, pp. 616 (2011). Link:

18.    W.S. Kim, L. Jia, and E.L. Thomas, 鈥淗ierarchically Ordered Topographic Patterns via Plasmonic Mask Photolithography鈥, Advanced Materials, 21, pp. 1921-1926 (2009). Link:

17.    A. Moujoud, H.J. Kim, S.H. Kang, G.J. Oh, W.S. Kim, B.S. Bae, and S.Y. Shin, 鈥淒ouble component long period waveguide grating filter in sol-gel material鈥, Optics Express, 15, pp. 15147-15153 (2007). Link:

16.      W.S. Kim, M.G. Kim, A.H. Ahn, B.S. Bae, and C.B. Park, 鈥淧rotein Micro-Patterning on Bi-Functional Organic-Inorganic Sol-Gel Hybrid Materials鈥, Langmuir, 23, pp. 4732-4736 (2007). Link:

15.    W.S. Kim, D.G. Choi, and B.S. Bae, 鈥淯ltraviolet-nanoimprint of 40 nm Scale Patterns Using Functionally Modified Fluorinated Hybrid Materials鈥, Nanotechnology, 17, pp. 3319-3324 (2006). Link:

14.      W.S. Kim, J.H. Jin, and B.S. Bae, 鈥淟ow Adhesive Force of Fluorinated Sol-gel Hybrid Materials for Easy De-moulding in a UV-based Nano-Imprint Process鈥, Nanotechnology, 17, pp. 1212-1216 (2006). Link:

13.    A. Moujoud, W.S. Kim, B.S. Bae, and S.Y. Shin, 鈥淭hermally-stable Optical Characteristics of Sol-gel Hybrid Material Films鈥, Applied Physics Letters, 88, 101916 (2006). Link:

12.    D.J. Kang, W.S. Kim, and B.S. Bae, 鈥淒irect Photo-fabrication of Refractive Index Modulated Multimode Optical Waveguide Using Photosensitive Sol-gel Hybrid Materials鈥, Applied Physics Letters, 87, 221106 (2005). Link:

11.    D.G. Choi, J.H. Jeong, Y.S. Shim, E.S. Lee, W.S. Kim, and B.S. Bae, 鈥淔luorinated Organic- Inorganic Hybrid Mold as a New Stamp for Nanoimprint and Soft Lithography鈥, Langmuir, 21, pp. 9390-9392  (2005). Link:

10.    W.S. Kim, K.B. Yoon, and B.S. Bae, 鈥淣anopatterning of Photonic Crystal with Photocurable High Refractive Index Material by UV-based Nanoimprint Technique鈥, J Materials Chemistry, 15, pp. 4535-4539 (2005). Link:

9.      W.S. Kim, K.S. Kim, Y.J. Eo, K.B. Yoon, and B.S. Bae, 鈥淪ynthesis of the fluorinated hybrid material for UV embossing of large core optical waveguide structure鈥, Journal of Materials Chemistry, 15, pp. 465-469 (2005). Link:

8.    C.G. Choi, W.S. Kim and B.S Bae, 鈥淟ow Dielectric Constant Organic-Inorganic Hybride Materials by Non-Hydrolytic Sol-Gel Method鈥, Electronic Materials Letters, 1, pp 87-90 (2005). Link:

7.      W.S. Kim, K.-S. Kim, Y.-C. Kim, and B.-S. Bae, 鈥淭hermowetting Embossing Nano Imprinting (TENI) of Organic-Inorganic Hybrid Materials鈥, Thin Solid Films, 476[1], pp. 181-184 (2005). Link:

6.    E.-S. Kang, W.S. Kim, K.-S. Kim, and B.-S. Bae, 鈥淢odification of Thermo-Optic Characteristics of Sol-Gel Inorganic-Organic Hybrid Materials鈥, Journal of Sol-Gel Science and Technology, 32, pp. 277-280 (2004). Link:

5.    E.-S. Kang, W.S. Kim, K.-S. Kim, and B.-S. Bae, 鈥淩educing the thermal dependence of silica-based arrayed-waveguide grating using inorganic-organic hybrid materials鈥, IEEE Photonics Technology Letters, 16[12], pp. 2625-2627 (2004). Link:

4.      W.S. Kim, J.-H. Lee, S.-Y. Shin, B.-S. Bae, and Y.-C. Kim, 鈥淔abrication of Ridge Waveguides by UV Embossing and Stamping of Sol-Gel Hybrid Materials鈥, IEEE Photonics Technology Letters, 16[8], pp. 1888-1890 (2004). Link:

3.      W.S. Kim, R. Houbertz, T.-H. Lee, and B.-S. Bae, 鈥淓ffect of Photo initiator on Photopolymerization of Inorganic-Organic Hybrid Polymers (ORMOCER)鈥, J Polymer Science Part B: Polymer Physics, 42, pp. 1979-1986 (2004). Link:

2.    R. Houbertz, W.S. Kim, G. Domann, J. Schulz, B. Olsowski, and L. Frolich, 鈥淚mpact of photo-initiators on the photopolymerization and the optical properties of inorganic-organic hybrid polymers鈥, Applied Physics Letters, 84[7], pp. 1105-1107 (2004). Link:

1.    J.U. Park, W.S. Kim, and B.S. Bae, 鈥淧hotoinduced Low Refractive Index in a Photosensitive Organic-Inorganic Hybrid Material鈥, Journal of Materials Chemistry, 13, pp. 738 (2003). Link:

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