Publication

Cover Articles

61. Tuning Gate Potential Profiles and Current-Voltage Characteristics of Polymer Electrolyte-Gated Transistors by Capacitance Engineering, K.G.Cho, K.H.Lee* C.D.Frisbie*, ACS Applied Materials & Interfaces, 2024, accepted (IF=9.5) 

60. Highly Conductive and Mechanically Robust Composite Cathodes Based on 3D Interconnected Elastomeric Networks for Deformable Lithium-Ion Batteries , S.H.Park, Y.W.Lee, D.E.Kim, K,G,Cho, M.S.Kim, D.H. Park, J.Mun*, K.H.Lee*, EcoMat, 2024, accepted (IF=14.6) 

59. High‑performance lithium–sulfur batteries utilizing charged binder and solid‑state ionogel electrolyte, J.M.Heo, J.Mun*, K.H.Lee*, Macromolecular Research, 2024, 32, 187 :selected as the front cover article (IF=2.4) 

58. Approaching Theoretical Limits in the Performance of Printed P-Type CuI Transistors via Room Temperature Vacancy Engineering, Y.A. Kwon, J.H.Kim, S.V. Barma, K.H.Lee, S.B. Jo*, J.H.Cho*, Advanced Materials, 2023, 35(51), 2307206 (IF=29.4) 

57. LEGO-like Assembly of Fibrous Modules for Display Textiles, S.Lee, W.S.Cho, K.G.Cho, J.-L.Lee, K.H.Lee*, K.Hong*, ACS Applied Materials & Interfaces, 2023, 15, 41688 (IF=9.5) 

56. Sub-Band Filling and Hole Transport in Polythiophene-Based Electrolyte-Gated Transistors: Effect of Side-Chain Length and Density, K.G.Cho, DZ Adrahtas, K.H.Lee*, CD Frisbie*, Advanced Functional Materials, 2023, 33, 2303700 (IF=19.0) 

55. Photopatternable and Self-Healable Ionogels for Organic Thin-film Transistors, S.Kim, J.Yeo, S.J.Kim, S.Park, K.G.Cho, K.Paeng*, K.H.Lee*, M.Kim*, Organic Electronics, 2023, 122, 106895 (IF=3.2) 

54. Tuning Threshold Voltage of Electrolyte-Gated Transistors by Binary Ion Doping, K.G.Cho, K.H.Seol, M.S.Kim, H.Hong*, K.H.Lee*, ACS Applied Materials & Interfaces, 2022, 14(44), 50004   (IF=10.383) 

53. Copper Halide Anion Engineering for p-channel Electrolyte-Gated Transistors with Superior Operational Reliability, D.I.Lee, M.S.Kim, K.G.Cho, H.Hong*, K.H.Lee*, Journal of Materials Chemistry C, 2022, 10,  12829-12835   (IF=8.067) 

52. Self-healable and tough polymer electrolyte composites based on associative nanostructural networks,Y.Lee, M.Kim; H.Kim, K.H.Lee, S.Kim*, ACS Applied Polymer Materials, 2022, 4, 5821−5830  (IF=4.855)

51. Associating Block Copolymer-Based Supramolecular Ionogel for Motion Monitoring Sensor Applications (모션 모니터링 센서 응용을 위한 회합 블록 공중합체 기반 초분자 이온젤) ; Myungwoong Kim*, Keun Hyung Lee*, Synchrotron Radiation Science & Technology (방사광 과학과 기술) 2022, 29, 17-22. [Link]

50. 3D printed solid-state composite electrodes and electrolytes for high-energy-density flexible microsupercapacitors, K.G.Cho, S.S.Jang, I.Heo, H.Kyung, W.C.Yoo*, K.H.Lee*, Journal of Energy Storage, 2022, 53, 105206 (IF=8.907) 

49. Amorphous copper iodide: a p-type semiconductor for solution processed p-channel thin-film transistors and inverters, H.J.Lee, S.Lee, K.H.Lee*, K.Hong*, Journal of Materials Chemistry C, 2022, 10(20), 7815–7821 (IF=8.067)

48. Water Washable and Flexible Light-Emitting Fibers Based on Electrochemiluminescent Gels, S.Lee, W.S.Cho, J.Y.Park, H.J.Lee, J.-L.Lee*, K.H.Lee*, K.Hong*, ACS Applied Materials & Interfaces, 2022, 14(15), 17709–17718 (IF=10.383)

47. Intrinsically Stretchable and Printable Lithium-Ion Battery for Free-Form Configuration, S.Y.Hong, S.M.Jee, Y.Ko, J.Cho, K.H.Lee, B.Yeom, H.Kim, J.G.Son*,  ACS Nano, 2022, 16(2), 2271–2281  (IF=18.027)

46. Facile Achievement of Complementary Resistive Switching in Block Copolymer Micelle-Based Resistive Memories, H.-H. Choi, H.J.Kim, J.Oh, M.Kim, J.Y.Jho, K.H.Lee, J.G.Son, J.H.Park*, Macromolecular Rapid Communications, 2022, 43 (7) 2100686 (IF=5.006)

45. Coarsening-induced Hierarchically Interconnected Porous Carbon Polyhedrons for Stretchable Ionogel-based Supercapacitors, M.S.Kang, I.Heo, K.G.Cho, H.Kyung, H.S.Kim, K.H.Lee*, W.C.Yoo*, Energy Storage Materials, 2022, 45, 380-388 (IF=20.831) 

44. Self-Healable, Stretchable, and Nonvolatile Solid Polymer Electrolytes for Sustainable Energy Storage and Sensing Applications,  D.H.Cho, K.G.Cho, S.An, M.S.Kim, H.W.Oh, J.Yeo, W.C.Yoo, K.Hong*, M.Kim*, K.H.Lee*, Energy Storage Materials, 2022, 45, 323-331 (IF=20.831) 

                    

43. Block Copolymer-based Supramolecular Ionogels for Accurate On-skin Motion Monitoring, K.G.Cho, S.An, D.H.Cho, J.H.Kim, J.Nam, M.Kim* and K.H.Lee*, Advanced Functional Materials, 2021, 31(36) 2102386 (IF=18.808) :selected as the front cover article

42. In Situ Polymerized Solid Electrolytes for Superior Safety and Stability of Flexible Solid-State Al-Ion Batteries, I.Kim, S.Jang, K.H.Lee*, Y.Tak*, and G.Lee*, Energy Storage Materials, 2021, 40, 229-238 (IF=17.789)

41. Ultra-Sensitive and Stretchable Ionic Skins for High-Precision Motion Monitoring, J.H.Kim, K.G.Cho, D.H.Cho, K.Hong* and K.H.Lee*, Advanced Functional Materials, 2021, 31(16), 2010199 (IF=18.808)

40. Electrochemiluminescent transistors: A new strategy toward light-emitting switching devices, S.Lee, H.J.Lee, Y.Ji, K.H.Lee*, K.Hong* Advanced Materials, 2021, 33(5), 2005456 (IF=30.849) :selected as the back cover article

    

39. Tip-enhanced electric field-driven efficient charge injection and transport in organic material-based resistive memories, H.-H.Choi, M.Kim, J.Jang, K.H.Lee, J.Y.Cho, J.H.Park*, Applied Materials Today, 2020, 20, 100746 (IF=8.352)

38. Vacancy engineering of a solution processed CuI semiconductor: tuning the electrical properties of inorganic P-channel thin-film transistors, , S.Lee, H.J.Lee, Y.Ji. S.M.Choi, K.H.Lee* and K. Hong*, Journal of Materials Chemistry C, 2020, 8, 9608-9614  (IF=7.059)

37. High-mobility Low-hysteresis Electrolyte-gated Transistors with a DPP-Benzotriazole Copolymer Semiconductor, S.J.Lee, K.G.Cho, S.-H. Jung, S.Kim, J-K.Lee, K.H.Lee*, Macromolecular Research, 2020, 28, 683 (IF=2.047)

36. Tough and ionically conductive polymer electrolyte composites based on random copolymers with crystallizable side chain architecture, H.-Y.Yoo, D.Son, H.Kim, K.G.Gho, M.Kim, K.H.Lee*, and S.Kim*, Organic Electronics, 2020, 84, 105788 (IF=3.310)

35. Optimizing Electrochemically Active Surfaces of Carbonaceous Electrodes for Ionogel Based Supercapacitors, K.G.Cho, H.S.Kim,S.S.Jang, M.S.Kang, K.H.Lee*, and W.C.Yoo* Advanced Functional Materials, 2020, 30(30), 2002053 (IF=16.836) :selected as the front cover article

34. Thermostable Ion Gels for High-Temperature Operation of Electrolyte-Gated Transistors, K.G.Cho, Y.G.Cho, J.H.Kim, H.-Y.Yoo, K.Hong* and K.H.Lee* ACS Applied Materials & Interfaces, 2020, 12 (13), 15464-15471 (IF=8.758)

33. Solution Processed Vertical P-channel Thin Film Transistors Using Copper(I) Thiocyanate, Y. Ji, S.Lee, H.J.Lee, K.S.Choi, C.Jeon, K.H.Lee* and K.Hong* Journal of Materials Chemistry C, 2020, 8, 5587-5593 (IF=7.059)

32. Light-emitting Devices Based on Electrochemiluminescence Gels, K.G.Cho, J.I. Lee, S. Lee, K.Hong*, M.S.Kang*, K.H.Lee*, Advanced Functional Materials, 2020, 30(33), 1907936 (IF=16.836)

31. Printable Carbon Nanotube-based Elastic Conductors for Fully-printed Sub-1V Stretchable Electrolyte-Gated Transistors and Inverters, K.G.Cho, Y.G.Kwon, S.S.Jang, K.H.Seol, J.H.Park, K.Hong*, K.H.Lee*,  Journal of Materials Chemistry C, 2020, 8, 3639-3645 (IF=7.059) :selected as the inside front cover article

                                                                  

30. Meyer-Rod Coated 2D Single-Crystalline Copper Nanoplate Film with Intensive Pulsed Light for Flexible Electrode , M.Go, A.Alam, H.K.Choie, Z.Zhong, K.H.Lee, H.Ha, B.Hwang*,  K.Woo*, T.-W.Kim*, S.Lim*, Coatings, 2020, 10 (1), 88 (IF=2.436)

29. Ultrahigh-Mobility and Solution-Processed Inorganic P-Channel Thin-Film Transistors Based on a Transition-Metal Halide Semiconductor, H.J.Lee, S.Lee, Y.Ji, K.GCho, K.S.Choi, C.Jeon, K.H.Lee*, K.Hong*, ACS Applied Materials & Interfaces, 2019, 11 (43), 40243-40251 (IF=8.456)

28. High-Performance P-Type Copper(I) Thiocyanate Thin Film Transistors Processed from Solution at Low Temperature, Y.Ji, H.J.Lee, S.Lee, K.G.Cho, K.H.Lee*, and K.Hong*, Advanced Materials Interfaces, 2019, 6 (19), 1900883 (IF=4.713)

27. Low voltage, high gain electrolyte-gated complementary inverters based on transfer-printed block copolymer ion gels, D. Lee, K.G.Cho, K.H.Seol, S.Lee, S.-H.Choi, K.H.Lee*, Organic Electronics, 2019, 71, 266~271 (IF=3.495)

26. High-Conductivity Electrolyte Gate Dielectrics Based on Poly(styrene-co-methyl methacrylate)/Ionic Liquid, D.Lee, Y. Jung, M. Ha, H. Ahn, K.H.Lee*, M. Seo*,  Journal of Materials Chemistry C, 2019, 7 (23), 6950-6955 (IF=6.641)

25. Highly conductive and mechanically robust nanocomposite polymer electrolytes for solid-state electrochemical thin-film devices, S.J.Lee, H.M.Yang, K.G.Cho, K.H.Seol, S.Kim, K.Hong*, K.H.Lee*, Organic Electronics, 2019, 65, 426~433 (IF=3.495)

24. Sub-2 V, Transfer-Stamped Organic/Inorganic Complementary Inverters Based on Electrolyte-Gated Transistors , K.G.Cho, H.J.Kim, H.M.Yang, K.H.Seol, S.J.Lee, K.H.Lee*, ACS Applied Materials & Interfaces, 2018, 10 (47), 40672-40680 (IF=8.097) :selected as the front cover article

23. Highly conductive, binary ionic liquid–solvent mixture ion gels for effective switching of electrolyte-gated transistors, K.H.Seol, S.J. Lee, K.G.Cho, K.Hong*, K.H.Lee*,  Journal of Materials Chemistry C, 2018, 6(41), 10987-10993 (IF=5.976) :selected as the front cover article

22. Electrospun Polymer Electrolyte Nanocomposites for Solid-State Energy Storage, K.Hong*, J.Yuk, H.J.Kim, J.Y.Lee, S.Kim, J-L.Lee and K.H.Lee*,  Composites Part B:Engineering, 2018 152, 275–281 (IF=4.920)

21. Solution-Processed Perovskite Gate insulators for Sub-2 V Electrolyte Gated Transistors, K. Hong, J.M. Kim, K.G.Cho, W.-S. Choi, J.Y. Park, J. Ham, J-L. Lee* and K.H. Lee*, The Journal of Physical Chemistry C, 2018, 122(19), 10522-10558 (IF=4.484)

20. Nonvolatile Electric Double-Layer Transistor Memory Devices Embedded with Au Nanoparticles, J. Koo, J. Yang, B. Cho, H. Jo, K.H. Lee, and M.S.Kang*, ACS Applied Materials & Interfaces, 2018, 10(11), 9563-9570 (IF=8.097)

19. Light emitting fabrics based on luminophore dye-doped ion gel electrolyte microfibers, K.Hong, K.G.Cho, D.C.Lim, J.Y.Lee, and K.H.Lee*, Dyes and Pigments, 2018, 154, 188-193. (IF=3.767)

18. Area-Controllable Stamping of Semicrystalline Copolymer Ionogels for Solid-state Electrolyte-gated Transistors and Light-emitting Devices, H.J.Kim, H.M.Yang, J. Koo, M.S.Kang, K. Hong*, and K.H.Lee*, ACS Appl. Mater. Interfaces, 2017, 9 (49), 42978-42985. (IF=7.504)

17. Physically Cross-Linked Homopolymer Ion Gels for High Performance Electrolyte-Gated Transistors,  H.M.Yang, Y.K.Kwon, S.B.Lee, S.Kim, K.Hong*, and K.H.Lee*, ACS Appl. Mater. Interfaces, 2017, 9 (10), 8813-8818. (IF=7.504)

16. Solid-State Dual Function Electrochemical Devices: Energy Storage and Light Emitting Applications, K.Hong, M.G.Kim, H.M.Yang, D.C.Lim, J.Y.Lee, S.J.Kim, I.Lee, K.H.Lee*, and J.L.Lee*, Advanced Energy Materials, 2016, 6 (19), 1600651. (IF=15.23)  :selected as the inside front cover article

15. Self-Supporting Ion Gels for Electrochemiluminesc​ent Sticker-Type Optoelectronic Devices, K.Hong*, Y.K.Kwon, J.Ryu, J.Y.Lee, S.H.Kim, and K.H.Lee*, Scientific Reports, 2016, 6, 29805. (IF=5.228

14. Improve Hierarchical Ordering in Supramolecules via Symmetrically End-functionalized Organic Semiconductor, K.H.LEE, P.Bai, B.J. Rancatore, B.He, Y.Liu, and T.Xu*, Macromolecules, 2016, 49 (7), 2639. (IF = 5.554)

13. Photo-Patternable ZnO Thin Films Based on Cross-Linked Zinc Acrylate for Organic/Inorganic Hybrid Complementary Inverters; Y.J. Jeong, T.K. An, D.Yun, L.H.Kim, S.Park, Y.Kim, S.Nam, K.H.Lee, S.H.Kim*, J.Jang*, and C.E.Park*, ACS Appl. Mater. Interfaces, 2016, 8 (8), 5499. (IF = 7.145)

12. Apparent pH Sensitivity of Solution-Gated Graphene Transistors; M.H.Lee, B.J.Kim, K.H.Lee, I.Shin, W.Huh, J.H.Cho*, and M.S.Kang*, Nanoscale, 2015, 7 (17), 7540. (IF = 7.394)

11. Optimization of Nanocomposite Gate Insulators for Organic Thin Film Transistors; S.Lim, K.H.Lee, H.Kim*, and S.Kim*, Organic Electronics, 2015, 17, 144. (IF = 3.827)

10. Dielectric properties of barium titanate supramolecular nanocomposites; K.H.Lee, J.Kao, S.Salemizadeh Parizi, G.Caruntu, and T.Xu*, Nanoscale, 2014, 6, 3526. (IF = 6.739)

9. Transfer Printing of Thermoreversible Ion Gels for Flexible Electronics; K.H.Lee, S.Zhang, Y.Gu, T.P.Lodge*, and C.D.Frsibie*, ACS Appl. Mater. Interfaces, 2013, 5, 9522. (IF = 5.900)

8. Performance and Stability of Aerosol Jet Printed Electrolyte-Gated Transistors based on Poly(3-hexylthiophene); S.H.Kim, K.Hong, K.H.Lee, and C.D.Frisbie*, ACS Appl. Mater. Interfaces, 2013, 5, 6580. (IF =5.900)

7. Printed, sub-2V ZnO electrolyte gated transistors and inverters on plastic; K.Hong, S.H.Kim, K.H.Lee, and C.D.Frisbie*, Adv. Mater., 2013, 25, 3413. (IF = 15.409) :selected as the front cover article

6. High Toughness, High Conductivity Ion Gels by Sequential Triblock Copolymer Self-Assembly and Chemical Cross-Linking; Y.Gu, S.Zhang, K.Martinetti, K.H.Lee, L.D.McIntosh, C.D.Frisbie*, and T.P.Lodge*, J. Am. Chem. Soc., 2013, 135, 9652. (IF = 11.444)

5. Electrolyte-Gated Transistors for Organic and Printed Electronics; S.H.Kim, K.Hing, W.Xia, K.H.Lee, S.Zhang, T.P.Lodge*, and C.D.Frisbie*, Adv. Mater., 2013, 25, 1822. (IF = 15.409)

4. “Cut and Stick” Rubbery Ion Gels as High Capacitance Gate Dielectrics; K.H.Lee, M.S.Kang, S.Zhang, Y.Gu, T.P.Lodge*, and C.D.Frisbie*, Adv. Mater., 2012, 24, 4457. (IF = 14.829)

     ** Highlighted in Nature, News & Views Electronics: 'Cut and stick' ion gels, 2012, 489, 510 

3. Viscoelastic Properties, Ionic Conductivity, and Materials Design Considerations for Poly(Styrene-b-Ethylene Oxide-b-Styrene)-Based Ion Gel Electrolytes; S.Zhang, K.H.Lee, J.Sun, C.D.Frisbie*, and T.P.Lodge*, Macromolecules, 2011, 44, 8981. (IF = 5.167)

2. Electrical Impedance of Spin-Coatable Ion Gel Films; K.H.Lee, S.Zhang, T.P.Lodge*, and C.D.Frisbie*, J. Phys. Chem. B, 2011, 115, 3315. (IF = 3.696)

1. Ionic Conductivity, Capacitance, and Viscoelastic Properties of Block Copolymer-Based Ion Gels; S.Zhang, K.H.Lee, C.D.Frisbie*, and T.P.Lodge*, Macromolecules, 2011, 44, 940. (IF = 5.167)