• Recent achievements
• Peer reviewed papers
• Book contributions

Publications

Recent achievements

• Population structure and reproductive biology of the endangered crab Deiratonotus japonicus (Brachyura, Camptandriidae) surveyed for nine years in the Kita River, Japan (IF:2.033)
  Il-Kweun Oh and Seung-Woo Lee
  J. Marine Science and Engineering, accepted.
  
  
  
  
• Long-Period Grating Fiber-Optic Sensors Exploiting Molecularly Imprinted TiO2 Nanothin Films with Photocatalytic Self-Cleaning Ability (IF:6.232)
  T. Wang, S. Korposh, S. James, and S. W. Lee*
  Microchimica Acta, accepted.
  
  
  
  
• [Open Access] Multi-Parameter Optical Fiber Sensing of Gaseous Ammonia and Carbon Dioxide (IF:5.090)
  L. Liu, S. P. Morgan, R. Correia, S. W. Lee, and S. Korposh
  J. Lightwave Technology 38(7), 2037-2045 (2020).
  
  
  
  
• Formation of Hollow Porous TiO2 Nanospheres via Encapsulation of CO2 Nanobubbles for High-Performance of Adsorption and Photocatalysis (IF:4.174)
  H. K. Lee and S. W. Lee*
  RSC Dalton Trans. 49, 8274-8281 (2020).
  
  
  
  
• [Open Access] Template-sacrificial conversion of MnCO3microspheres to fabricate Mn-doped TiO2 visible light photocatalysts (IF:6.289)
  H. K. Lee and S. W. Lee*
  Materials & Design 189, 108497 (2020).
  
  
  
  
• [Open Access: Review] Tapered optical fibre sensors: current trends and future perspectives (IF:3.275)
  S. Korposh, S. W. James, S.-W. Lee, R. P. Tatam
  Sensors 19, 2294 (2019).
  
  
  
  

  Congratulations! "Selected as an “Editor’s Choice Article”

  
  
• Identification of volatile metabolites in human saliva from patients with oral squamous cell carcinoma via zeolite-based thin-film microextraction coupled with GC-MS
  H. Shigeyama, T. Wang, M. Ichinose, T. Ansai, S.-W. Lee*
  Journal of Chromatography B 1104, 49-58 (2019).
  
  
  
  
• Highly sensitive label-free antibody detection using a long period fibre grating sensor
  L. Liu, L. Marques, R. Correia, S. P. Morgan, S.-W. Lee, P. Tighe, L. Fairclough, S. Korposh
  Sensors & Actuators: B. Chemical 271, 24-32 (2018).
  
  
  
  
• [Open Access] Fabrication of Visible-light Responsive N-doped TiO₂ Nanothin Films via a Top-down Sol-gel Deposition Method Using NH₄TiOF₃ Single Crystals
  H.-K. Lee, T. Fujiwara, T. Okada, T. Fukushima, S.-W. Lee*
  Chemistry Letters 47, 628-631 (2018).
  
  
  
  
  
• [Invited] Porphyrin-nanoassembled fiber-optic gas sensor fabrication: Optimization of parameters for sensitive ammonia gas detection
  S. Korposh, S. Kodaira, R. Selyanchyn, F. H. Ledezma, S. W. James, S.-W. Lee*
  Optics and Laser Technology 101, 1-10 (2018).
  
  
  
  
  

Peer reviewed papers

2016-2020

116. Il-Kweun Oh and Seung-Woo Lee, “Population structure and reproductive biology of the endangered crab Deiratonotus japonicus (Brachyura, Camptandriidae) surveyed for nine years in the Kita River, Japan (IF:2.033)”, J. Marine Science and Engineering, accepted.

115. T. Wang, S. Korposh, S. James, and S. W. Lee*, “Long-Period Grating Fiber-Optic Sensors Exploiting Molecularly Imprinted TiO2 Nanothin Films with Photocatalytic Self-Cleaning Ability (IF:6.232)”, Microchimica Acta, accepted.

114. Il-Kweun Oh and Seung-Woo Lee, “Effects of Temperature on the Survival and LarvalDevelopmentof DeiratonotusJaponicus (Brachyura, Camptandriidae)as a Biological Indicator (IF:2.033)”, J. Marine Science and Engineering 8(3), 2138274-8281 (2020).

113. H. K. Lee and S. W. Lee*, “Formation of Hollow Porous TiO2 Nanospheres via Encapsulation of CO2 Nanobubbles for High-Performance of Adsorption and Photocatalysis (IF:4.174)”, RSC Dalton Trans. 49, 8274-8281 (2020).

112. H. K. Lee and S. W. Lee*, “[Open Access] Template-sacrificial conversion of MnCO3microspheres to fabricateMn-doped TiO2visible light photocatalysts (IF:6.289)”, Materials & Design 189, 108497 (2020).

111. L. Liu, S. P. Morgan, R. Correia, S. W. Lee, and S. Korposh, “Multi-Parameter Optical Fiber Sensing of GaseousAmmonia and Carbon Dioxide (IF:5.090)”, J. Lightwave Technology 38(7), 2037-2045 (2020).

110. Korposh, S. W. James, S.-W. Lee, and R. P. Tatam, “[Review] Tapered optical fibre sensors: current trends and future perspectives”, Sensors, in press.

109. H. Shigeyama, T. Wang, M. Ichinose, T. Ansai, and S.-W. Lee*, “Identification of volatile metabolites in human saliva from patients with oral squamous cell carcinoma via zeolite-based thin-film microextraction coupled with GC-MS”, J. Chromatography B 1104, 49-58 (2019).

108. L. Liu, L. Marques, R. Correia, S. P. Morgan, S.-W. Lee, P. Tighe, L. Fairclough, and S. Korposh, “Highly sensitive label-free antibody detection using a long period fibre grating sensor”, Sens. Actuators B 271, 24-32 (2018).

107. H.-K. Lee, T. Fujiwara, T. Okada, T. Fukushima, and S.-W. Lee*, “Fabrication of Visible-light Responsive N-doped TiO2 Nanothin Films via a Top-down Sol-gel Deposition Method Using NH4TiOF3 Single Crystals”, Chem. Lett. 47, 628-631 (2018).

106. S. Korposh, S. Kodaira, R. Selyanchyn, F. H. Ledezma, S. W. James, and S.-W. Lee*, “Porphyrin-nanoassembled fiber-optic gas sensor fabrication: Optimization of parameters for sensitive ammonia gas detection”, Optics and Laser Technology 101, 1-10 (2018).

105. R. Correia, S. James, S.-W. Lee, S. P. Morgan, and S. Korposh, “Review: Biomedical application of optical fibre sensors”, J. Optics 20, 073003 (2018).

104. S.-W. Lee*, R. Selyanchyn, S. Wakamatsu, and K. Hayashi, “Nanoassembled Thin-film-coated Quartz Crystal Microbalance Odor Sensors for Environmental and Human Breath Ammonia Assessments”, Sensors and Materials 30(5), 1133-1144 (2018).

103. T. Wang, T. Ansai, and S.-W. Lee*, “Zeolite-loaded poly(dimethylsiloxane) hybrid films for highly efficient thin-film microextraction of organic volatiles in water”, J. Chromatography B 1041, 133-140 (2017).

102. D. Tiwari, K. Mullaney, S. Korposh, S. W. James, S.-W. Lee, and R. P. Tatam, “An ammonia sensor based on Lossy Mode Resonances on a tapered optical fibre coated with porphyrin-incorporated titanium dioxide”, Sens. Actuators B 242, 645-652 (2017).

101. H. Okuda, T. Wang, and S.-W. Lee*, “Selective Methanol Gas Detection Using a U-Bent Optical Fiber Modified with a Silica Nanoparticle Multilayer”, Electronics and Communications in Japan 100(2), 43-49 (2017).

100. S.-W. Lee*, N. Takahara, and T. Wang, “Two-component Gas Sensing of Ammonia and Formaldehyde using Quartz Crystal Microbalance Sensors Modified with Organic/Inorganic Hybrid Nanothin Films”, IEEJ Transactions on Sensors and Micromachines 137(7), 199-204 (2017).

99. S. Korposh, S.-W. Lee, S. James, R. Tatam, and S. P. Morgan, “Biomedical application of optical fibre sensors”, Proc. SPIE 10111, Quantum Sensing and Nano Electronics and Photonics XIV, 101112Y (27 January 2017); doi: 10.1117/12.2243640.

98. J. Hromadka, S. Korposh, M. C. Partridge, S. James, F. Davis, D. Crump, S.-W. Lee, and R. P. Tatam, “Multi-parameter measurements using optical fibre long period gratings for indoor air quality monitoring”, Proc. SPIE 10323, 25th International Conference on Optical Fiber Sensors, 103233J (23 April 2017); doi: 10.1117/12.2265055.

97. F. U. Hernandez, T. Wang, S. Korposh, R. Correia, B. R. Hayes-Gill, J. Hromadka, N. N. Mohd Hazlan, A. Norris, D. Evans, S.-W. Lee, and S. P. Morgan, “Optical fibre sensing during critical care”, Proc. SPIE 10340, International Conference on Biophotonics V, 1034012 (29 April 2017); doi: 10.1117/12.2269993.

96. L. Liu, L. Marques, R. Correia, S. P. Morgan, S.-W. Lee, P. Tighe, L. C. Fairclough, and S. Korposh, “Human IgM detection using an optical fibre long period grating sensor”, Proc. 2017 IEEE SENSORS (29 Oct.-1 Nov. 2017); doi: 10.1109/ICSENS.2017.8234303.

95. T. Wang, W. Yasukochi, S. Korposh, S. W. James, R. P. Tatam, and S.-W. Lee*, “A long period grating optical fiber sensor with nano-assembled porphyrin layers for detecting ammonia gas”, Sens. Actuators B 228, 573-580 (2016).

94. T. Wang, T. Okada, K. Hayashi, S. W. James, and S.-W. Lee*, “Optical Gas Sensing Using Gold Nanoparticles/Polyelectrolyte Layer-by-Layer Films: A Case Study with Poly(acrylic acid) for Ammonia Detection”, Sensors and Materials 28(3), 181-190 (2016).

93. H. Okuda, T. Wang, and S.-W. Lee*, “Selective Methanol Gas Detection using a U-bent Optical Fiber Modified with a Silica Nanoparticle Multilayer”, IEEJ Transactions on Sensors and Micromachines 136(5), 166-171 (2016).

92. H.-K. Lee, T. Okada, T. Fujiwara, and S.-W. Lee*, “Top-Down Synthesis andDeposition of Highly Porous TiO2 Nanoparticles from NH4TiOF3 Single Crystals on Multi-Walled Carbon Nanotubes and Graphene Oxides”, Materials and Design 108, 269-276 (2016).

91. D. Tiwari, K. Mullaney, S. Korposh, S. W. James, S.-W. Lee, and R. P. Tatam, “Ammonia sensing using lossy mode resonances in a tapered optical fibre coated with porphyrin-incorporated titanium dioxide”, Proc. SPIE 9916, 6th European Workshop on Optical Fibre Sensors, 99161H (30 May 2016); doi: 10.1117/12.2236926.

90. T. Wang, Y. Nishimatsu, H. Shigeyama, T. Ansai, and S.-W. Lee*, “Molecular information of volatile organic metabolites identified from human saliva and urine”, Aroma Research 17(3), 276-283 (2016).

2011-2015

89. R. Wong, S. Korposh, S.-W. Lee, S. W. James, and R. P. Tatam, “Photodecomposition of a target compound detected using an optical fibre long period grating coated with a molecularly imprinted titania thin film”, Proc. SPIE 9634, 24th International Conference on Optical Fibre Sensors, 96340Y (28 September 2015); doi: 10.1117/12.2192325.

88. R. Selyanchyn, S. Wakamatsu, K. Hayashi, and S.-W. Lee*, “A Nano-Thin Film-Based Prototype QCM Sensor Array for Monitoring Human Breath and Respiratory Patterns”, Sensors 15, 18834-18850 (2015).

87. Y. Ogimoto, R. Selyanchyn, N. Takahara, S. Wakamatsu, and S.-W. Lee*, “Detection of ammonia in human breath using quartz crystal microbalance sensors with functionalized mesoporous SiO2 nanoparticle film”, Sens. Actuators B 215, 428-436 (2015).

86. T. Nozoe, S. Goda, R. Selyanchyn, T. Wang, K. Nakazawa, T. Hirano, H. Matsui, and S.-W. Lee*, “In vitro detection of small molecule metabolites excreted from cancer cells using a Tenax TA thin-film microextraction device”, J. Chromatography B 991, 99-107 (2015).

85. H.-K. Lee and S.-W. Lee*, “Surfactant-free NH4TiOF3 Crystals: Self-assembly on Solid Surfaces and Room-temperature Hydrolysis for Hollow TiO2 Structures with High Photocatalytic Activity”, Chem. Lett. 44, 604-606 (2015).

84. S.-W. Lee, “Quartz crystal microbalance based screening of ammonia in human breath”, Aroma Research 16(4), 364-365 (2015).

83. S.-W. Lee, “A New Concept for Development of Quartz Crystal Microbalance Fire Prevention Sensors Modified with Nano-Assembled Thin Film”, J. Disaster Research 10(4), 595-603 (2015).

82. T. Wang, M. Soeda, and S.-W. Lee*, “Sensitive Colorimetric Analysis of Polyamines Based on the Self-Assembly of Citric Acid-Modified Gold Nanoparticles”, Kobunshi Ronbunshu 72(12), 752-759 (2015).

81. S.-W. Lee*, Y. Ogimoto, and S. Wakamatsu, “Development of a Quartz Crystal Microbalance Sensor System for Immediate Detection of Ammonia in Human Breath”, J. Jpn. Soc. Colour Mater. 88(6), 175-180 (2015).

80. S. Korposh, R. P. Tatam, S. W. James, and S.-W. Lee, “Chirality measurements using optical fibre long period gratings fabricated in high birefringent fibre”, Proc. SPIE 9655, 5th Asia-Pacific Optical Sensors Conference, 965533 (1 July 2015); doi: 10.1117/12.2184441.

79. S. Korposh, H. Okuda, T. Wang, S. W. James, and S.-W. Lee*, “U-shaped evanescent wave optical fibre sensor based on a porphyrin anchored nanoassembled thin film for high sensitivity ammonia detection”, Proc. SPIE 9655, 5th Asia-Pacific Optical Sensors Conference, 965518 (1 July 2015); doi: 10.1117/12.2184438.

78. S.-W. Lee*, T. Wang, R. Selyanchyn, S. Korposh, and S. W. James, “Optical fiber sensing of human skin emanations”, Proc. SPIE 9655, 5th Asia-Pacific Optical Sensors Conference, 96551K (1 July 2015); doi: 10.1117/12.2184411.

77. H. Okuda, T. Wang, and S.-W. Lee*, “Methanol selective fibre-optic gas sensor with a nanoporous thin film of organic-inorganic hybrid multilayers”, Proc. SPIE 9655, 5th Asia-Pacific Optical Sensors Conference, 96550Z (1 July 2015); doi: 10.1117/12.2183999.

76. D. Tiwari, S. W. James, R. P. Tatam, S. Korposh, and S.-W. Lee*, “A high-sensitivity chemical sensor based on titania coated optical-fiber long period grating for ammonia sensing in water”, Proc. SPIE 9655, 5th Asia-Pacific Optical Sensors Conference, 96552H (1 July 2015); doi: 10.1117/12.2184260.

75. S. Goda, R. Selyanchyn, T. Nozoe, H. Matsui, and S.-W. Lee*, “Development of a Thin-Film Microextraction Device based on ZSM-5/Tenax TA for VOC Detection in Liquid Samples”, J. Anal. Bioanal. Tech., S12 (2014).

74. H.-K. Lee, D. Sakemi, R. Selyanchyn, C.-G. Lee, and S.-W. Lee*, “Titania Nanocoating on MnCO3 Microspheres via Liquid-Phase Deposition for Fabrication of Template-Assisted Core-Shell- and Hollow-Structured Composites”, ACS Appl. Mater. Interfaces 6, 57-64 (2014).

73. S. Korposh, R. Selyanchyn, S. James, R. Tatam, and S.-W. Lee*, “Identification and quality assessment of beverages using a long period grating fibre-optic sensor modified with a mesoporous thin film”, Sensing and Bio-Sensing Research 1, 26-33 (2014).

72. S. W. James, S. Korposh, S.-W. Lee, and R. P. Tatam, “A long period grating-based chemical sensor insensitive to the influence of interfering parameters”, Optics Express 22(7), 8012-8023 (2014).

71. S. Korposh, S. W. James, S.-W. Lee, and R. P. Tatam, “Temperature and surrounding refractive index insensitive cascaded long period grating chemical sensor”, Proc. SPIE 9157, 23rd International Conference on Optical Fibre Sensors, 91574J (2 June 2014); doi: 10.1117/12.2059031.

70. T. Wang, S. Korposh, S. James, R. Tatam, and S.-W. Lee*, “Optical fiber long period grating sensor with a polyelectrolyte alternate thin film for gas sensing of amine odors”, Sens. Actuators B 185, 117-124 (2013).

69. S. Korposh, F. Davis, S. W. James, T. Wang, S.-W. Lee, S. Higson, and R. P. Tatam, “Detection of volatile organic compounds (VOCs) using an optical fibre long period grating with a calixarene anchored mesoporous thin film”, Proc. SPIE 8794, 5th European Workshop on Optical Fibre Sensors, 87941I (20 May 2013); doi: 10.1117/12.2026270.

68. R. Selyanchyn, T. Nozoe, H. Matsui, T. Kadosawa, and S.-W. Lee*, “TD-GC-MS Investigation of the VOCs Released from Blood Plasma of Dogs with Cancer”, Diagnostics 3, 68-83 (2013).

67. R. Selyanchyn and S.-W. Lee*, “Molecularly imprinted polystyrene?titania hybrids with both ionic and π?π interactions: a case study with pyrenebutyric acid”, Microchim Acta 180, 1443-1452 (2013).

66. D. Sakemi, H. Lee, R. Selyanchyn, and S.-W. Lee*, “One-pot Anatase TiO2 Nanocoating on Multiwalled Carbon Nanotubes via Liquid-phase Deposition Process”, Chem. Lett. 42(6), 595-597 (2013).

65. K. Araki, D.-H. Yang, T. Wang, R. Selyanchyn, S.-W. Lee*, and T. Kunitake, “Self-assembly and imprinting of macrocyclic molecules in layer-by-layered TiO2 ultrathin films”, Anal. Chim. Acta 779, 72-81 (2013).

64. T. Wang, S. Korposh, S. James, R. Tatam, and S.-W. Lee*, “Polyelectrolyte multilayer nanothin film coated long period grating fiber optic sensors for ammonia gas sensing”, Proc. 13th IEEE Conference Nanotechnology (IEEE-NANO 2013) (5-8 Aug. 2013); doi: 10.1109/NANO.2013.6720931.

63. W. Yasukochi, T. Wang, S. Kodaira, S. Korposh, R. Selyanchyn, and S.-W. Lee*, “Ammonia Gas Detection Using an Optically Sensitive Hybrid Organic/Inorganic Multilayer Nanoporous Film”, Adv. Sci. Lett. 19(2), 415-419 (2013).

62. T. Nozoe, R. Selyanchyn, H. Matsui, and S.-W. Lee*, “Pyrolysis Gas Chromatography Mass Spectrometry Assessment of Low-Concentration Sarcosine in Water Based Samples”, Adv. Sci. Lett. 19(1), 233-237 (2013).

61. D. Sakemi, W. Futagami, Y. Kudo, S. Onoue, S.-W. Lee*, and T. Kunitake, “Solubilization and Titania Nano-Coating of Carbon Nanotubes Using Titanium (IV) Tetrabutoxide”, Kobunshi Ronbunshu 70(6), 253-261 (2013).

60. N. Takahara, T. Wang, and S.-W. Lee*, “Selective Adsorption of Molecules by Imprinted Titania Nanohybrid Thin Films with Anchored Cyclodextrin Host Molecules”, Kobunshi Ronbunshu 70(5), 214-220 (2013).

59. T. Wang, S. Korposh, R. Wong, S. James, R. Tatam, and S.-W. Lee*, “A Novel Ammonia Gas Sensor Using a Nanoassembled Polyelectrolyte Thin Film on Fiber-optic Long-period Gratings”, Chem. Lett. 41(10), 1297-1299 (2012).

58. N. Mizutani, S. Korposh, R. Selyanchyn, D.-H. Yang, C.-S. Lee, S.-W. Lee*, and T. Kunitake, “One-step Fabrication of Polystyrene-TiO2 Nanosandwich Film by Phase Separation”, Chem. Lett. 41(5), 552-554 (2012).

57. N. Mizutani, S. Korposh, R. Selyanchyn, S. Wakamatsu, and S.-W. Lee*, “Application of a Quartz Crystal Microbalance (QCM) Twin Sensor for Selective Label-free Immunoassay to Simultaneous Antigen-antibody Reactions”, Sens. & Trans. 137(2), 1-9 (2012).

56. S. Korposh, T. Wang, S. James, R. Tatam, and S.-W. Lee*, “Pronounced aromatic carboxylic acid detection using a layer-by-layer mesoporous coating on optical fibre long period grating”, Sens. Actuators B 173, 300-309 (2012).

55. S. Korposh, R. Selyanchyn, W. Yasukochi, S.-W. Lee*, S. W. James, and R. P. Tatam, “Optical fibre long period grating with a nanoporous coating formed from silica nanoparticles for ammonia sensing in water”, Materials Chemistry and Physics 133, 784-792 (2012).

54. R. Jarzebinska, S. Korposh, S. James, W. Batty, R. Tatam, and S.-W. Lee*, “Optical Gas Sensor Fabrication Based on Porphyrin-Anchored Electrostatic Self-Assembly onto Tapered Optical Fibers”, Analytical Letters 45, 1297-1309 (2012).

53. T. Nozoe, R. Selyanchyn, H. Matsui, and S.-W. Lee*, “Pyrolysis-based quantitative analysis of sarcosine and its application to urine samples”, Aroma Research 13(3), 256-261 (2012).

52. D.-H. Yang, W. Futagami, N. Mizutani, and S.-W. Lee*, “Fabrication of Metal Oxide and Fullerene Layer-by-Layered Nanocomposite Films”, Kobunshi Ronbunshu 69(4), 171-178 (2012).

51. R. Selyanchyn, S. Korposh, S. Wakamatsu, and S.-W. Lee*, “Respiratory Monitoring by Porphyrin Modified Quartz Crystal Microbalance Sensors”, Sensors 11(1), 1177-1191 (2011).

50. R. Selyanchyn, S. Korposh, S. Wakamatsu, and S.-W. Lee*, “Simultaneous Monitoring of Humidity and Chemical Changes Using Quartz Crystal Microbalance Sensors Modified with Nano-thin Films”, Anal. Sci. 27(3), 253-258 (2011).

49. N. Mizutani, D.-H. Yang, R. Selyanchyn, S. Korposh, S.-W. Lee*, and T. Kunitake, “Remarkable Enantioselectivity of Molecularly Imprinted TiO2 Nano-thin Films”, Anal. Chim. Acta 694(1-2), 142-50 (2011).

48. S.-W. Lee*, S. Korposh, T. Onodera, and K. Toko, “Electrochemical detection of the explosive taggant 2,3-dimethyldinitrobutane using a single-walled carbon nanotube employed TiO2 composite film”, Nanoscience and Nanotechnology - Asia 1(1), 47-52 (2011).

47. S.-W. Lee*, S. Korposh, T. Onodera, and K. Toko, “Fast and Sensitive Detection of 2,3-Dimethyldinitrobutane (DMNB) as Explosive Taggant Using Corundum Based Integrated Electrochemical Chips”, Sensor Letters 9(1), 266-271 (2011).

46. S. Korposh, S.-W. Lee*, S. W. James, and R. P. Tatam, “Refractive index sensitivity of fibre-optic long period gratings coated with SiO2 nanoparticle mesoporous thin films”, Measurement Science and Technology 22(7), 075208 (2011).

45. S. Korposh, S.-W. Lee*, S. W. James, and R. P. Tatam, “Refractive index sensitivity of fibre optic long period gratings with SiO2 nanoparticle based mesoporous coatings”, Proceedings of SPIE - The International Society for Optical Engineering 7753 (2011).

44. R. Selyanchyn, S. Korposh, W. Yasukochi, and S.-W. Lee*, “A Preliminary Test for Skin Gas Assessment Using a Porphyrin Based Evanescent Wave Optical Fiber Sensor”, Sens. & Trans. 125(2), 54-67 (2011).

43. S.-W. Lee*, N. Takahara, S. Korposh, D.-H. Yang, and T. Kunitake, “A Novel Mass-Sensitive Sensor Based on β-Cyclodextrin-Anchored Bisphenol A-Imprinted TiO2 Ultrathin Layers”, Sens. Mater. 23(4), 229-236 (2011).

2006-2010

42. S. Korposh, S. W. James, S.-W. Lee*, S. Topliss, S. C. Cheung, W. J. Batty, and R. P. Tatam, “Fiber optic long period grating sensors with a nanoassembled mesoporous film of SiO2 nanoparticles”, Optics Express 18(12), 13227-13238 (2010).

41. S. Korposh, W. Batty, S. Kodaira, S.-W. Lee*, S. W. James, S. M. Topliss, and R. P. Tatam, “Ammonia sensing using a fibre optic long period grating with a porous nanostructured coating formed from silica nanospheres”, Proc. SPIE 7653, Fourth European Workshop on Optical Fibre Sensors, 76531D (8 September 2010); doi: 10.1117/12.866326.

40. S. Korposh, R. Selyanchyn, and S.-W. Lee*, “Nano-assembled thin film gas sensors. IV. Mass-sensitive monitoring of humidity using quartz crystal microbalance (QCM) electrodes”, Sens. Actuators B 147(2), 599-606 (2010).

39. N. Mizutani, W. Futagami, S.-W. Lee*, and T. Kunitake, “Evaluation of porosity of polymer-templated TiO2 nano-thin films: Selective adsorption of C60 fullerene and cytochrome c”, Kobunshi Ronbunshu 67(5), 304-311 (2010).

38. R. Selyanchyn, S. Korposh, T. Matsui, H. Matsui, and S.-W. Lee*, "Purge and trap coupled to Curie point thermal desorption for the detection of parts per trillion 2,4,6-trichloroanisole (TCA) in water solutions", Chromatographia 71, 317-321 (2010).

37. S.-W. Lee*, N. Takahara, S. Korposh, D.-H. Yang, K. Toko, and T. Kunitake, “Nano-assembled thin film gas sensor. III. Sensitive detection of amine odors using TiO2/polyacrylic acid ultrathin film QCM sensors”, Anal. Chem. 82, 2228-2236 (2010).

36. S. Korposh, S. Kodaira, W. Batty, S. W. James, and S.-W. Lee*, “Nano-assembled thin film gas sensor. II. An intrinsic highly sensitive fibre optic sensor for ammonia detection”, Sens. Mater. 21, 179-189 (2009).

35. D.-H. Yang, C. S. Park. J. H. Min, M. H. Oh, Y. S. Yoon, S.-W. Lee*, and J. S. Shin, “Fullerene nanohybrid metal oxide ultrathin films”, Current Applied Physics 9, e132-e135 (2009).

34. D.-H. Yang, M.-J. Ju, A. Maeda, and S.-W. Lee*, “Enhanced sensor capability of juxtaposed β-cyclodextrin rings in TiO2 ultrathin matrix as determined by cyclic surface-polarization impedance measurement”, Sens. Mater. 20(5), 191-200 (2008).

33. S. O. Korposh, Y. P. Sharkan, M. Y. Sichka, D.-H. Yang, S.-W. Lee*, and J. J. Ramsden*, “Matrix influence on the optical response of composite bacteriorhodopsin films to ammonia”, Sens. Actuators B 133, 281-290 (2008).

32. D.-H. Yang, N. Takahara, S.-W. Lee*, and T. Kunitake, “Fabrication of glucose-sensitive TiO2 ultrathin films by molecular imprinting and selective detection of monosaccharides”, Sens. Actuators B 130, 379-385 (2008).

31. S. Kodaira, S.-W. Lee*, and T. Kunitake, “Photoinduced Micropatterning of Silver Nanoparticles in a Titanium Dioxide/Poly(acrylic acid) Alternate Thin Film”, Chem. Lett. 37, 168-169 (2008).

30. S. Korposh, S. Kodaira, S.-W. Lee*, W. J. Batty, S. W. James, and R. P. Tatam, “Fabrication of sensitive fibre-optic gas sensors based on nano-assembled thin films”, Proc. 2008 IEEE SENSORS (26-29 Oct. 2008), 1285-1288; doi: 10.1109/ICSENS.2008.4716679.

29. S. Kodaira, S. Korposh, S.-W. Lee*, W. J. Batty, S. W. James, and R. P. Tatam, “Fabrication of Highly Efficient Fibre-Optic Gas Sensors Using SiO2/Polymer Nanoporous Thin Films”, Proc. 3rd International Conference on Sensing Technology, 481-485 (2008); doi: 10.1109/ICSENST.2008.4757152.

28. S. Korposh, S. Kodaira, S.-W. Lee*, W. J. Batty, S. W. James, and R. P. Tatam, “Deposition of SiO2/Polymer Nanoporous Thin Films on Long-Period Grating (LPG) Optical Fibres and Dramatic Enhancement of the Resonance Bands”, Proc. 3rd International Conference on Sensing Technology, 666-669 (2008); doi: 10.1109/ICSENST.2008.4757189.

27. M.-J. Ju, D.-H. Yang, N. Takahara, K. Hayashi, K. Toko, S.-W. Lee*, and T. Kunitake, “Landmine detection: Improved binding of 2,4-dinitrotoluene in a γ-CD/metal oxide matrix and its sensitive detection via a cyclic surface polarization impedance (cSPI) method”, Chem. Comm. 6, 2630-2632 (2007).

26. M.-J. Ju, D.-H. Yang, S.-W. Lee*, T. Kunitake, K. Hayashi, and K. Toko, “Fabrication of TiO2/γ-CD films for nitro aromatic compounds and its sensing application via cyclic surface-polarization impedance (cSPI) spectroscopy”, Sens. Actuators B 123, 359-367 (2007).

25. S. Korposh, N. Takahara, S.-W. Lee*, and T. Kunitake, “Fabrication of Optical Gas Sensors Using Porphyrin-based Nano-assembled Thin Films: a Comparison with Bulk Materials”, Proc. 7th IEEE Conference Nanotechnology (IEEE-NANO 2007) 7, 1037-1040 (2007); doi: 10.1109/NANO.2007.4601360.

24. D.-H. Yang, N. Takahara, N. Mizutani, S.-W. Lee*, and T. Kunitake, “Fabrication of TiO2 and Cytochrome c Alternate Ultrathin Films via a Gas-phase Surface Sol-Gel Process”, Chem. Lett. 35, 990-991 (2006).

23. N. Takahara, D.-H. Yang, M.-J. Ju, K. Hayashi, K. Toko, S.-W. Lee*, and T. Kunitake, “Anchoring of Cyclodextrin Units on TiO2 Thin Layer for Effective Detection of Nitro-aromatics: A Novel Electrochemical Approach for Landmine Detection”, Chem. Lett. 35, 1340-1341 (2006).

22. S. Korposh, N. Takahara, J. J. Ramsden, S.-W. Lee*, and T. Kunitake, “Nano-assembled thin film gas sensors. I. Ammonia detection by a porphyrin-based multilayer film”, J. Biolog. Phys. Chem. 6, 125-132 (2006).

21. D.-H. Yang, M.-J. Ju, A. Maeda, K. Hayashi, K. Toko, S.-W. Lee*, and T. Kunitake, “Design of highly efficient receptor sites by combination of cyclodextrin units and molecular cavity in TiO2 ultrathin layer”, Biosens. Bioelectron. 22, 388-392 (2006).

20. K. Nakazawa, S.-W. Lee, J. Fukuda, D.-H. Yang, and T. Kunitake, “Hepatocyte Spheroid Formation on a Titanium Dioxid Gel Surface and Hepatocyte Long-term Culture”, J. Materials Science: Materials in Medecine 17(4), 359-364 (2006).

19. N. Mizutani, D.-H. Yang, N. Mitsushita, S.-W. Lee*, and T. Kunitake, “Fabrication and Application of Enantioselective TiO2 Nanofilms by Molecular Imprinting”, Proc. 2006 IEEE SENSORS (22-25 Oct. 2006), 1249-1252; doi: 10.1109/ICSENS.2007.355856.

2001-2005

18. S.-W. Lee* and T. Kunitake, “Fabrication of ceramic nano thin films with a molecular cavity”, Future materials 5(2), 26-32 (2005)．

17. D.-H. Yang, S.-W. Lee*, and T. Kunitake, “Facile Fabrication of Molecularly Imprinted Cavities in Spin-Coated TiO2 Nanofilms”, Chem. Lett. 34, 1686-1687 (2005).

16. Y.-J. Ji, H.-Y. Kim, Y.-S. Yoon, S.-W. Lee, and J.-S. Shin, “Hard Coatings on Polycarbonate Plate by Sol-Gel Process”, J. Adhesion and Interface 6, 10-18 (2005).

15. D.-H. Yang, A.-H. Bae, K. Koumoto, S.-W. Lee*, K. Sakurai, and S. Shinkai, “In situ monitoring of polysaccharide-polynucleotide interaction using a schizophyllan-immobilized QCM device”, Sens. Actuators B 105, 490-494 (2005).

14. S.-W. Lee*, D.-H. Yang, and T. Kunitake, “Regioselective imprinting of anthracenecarboxylic acids onto TiO2 gel ultrathin films: an approach to thin film sensor”, Sens. Actuators B 104, 35-42 (2005).

13. S. Korposh, M. Y. Sichka, I. I. Trikur, Y. P. Sharkan, D.-H. Yang, S.-W. Lee, and J. J. Ramsden, “Films based on bacteriorhodopsin in sol-gel matrices”, Proc. SPIE 5956, Integrated Optics: Theory and Applications, 595616 (30 September 2005); doi: 10.1117/12.622631.

12. M.-J. Ju, K. Hayashi, K. Toko, D.-H. Yang, S.-W. Lee*, and T. Kunitake, “A New Electrochemical Sensor for Heavy-Metal Ions by the Surface-Polarization Controlling Method”, Proc. 2005 IEEE TRANSDUCERS (5-9 June 2005)2, 1876-1879; doi: 10.1109/SENSOR.2005.1497462.

11. A.-H. Bae, S.-W. Lee, M. Ikeda, M. Sano, S. Shinkai, and K. Sakurai, “Rod-like architecture and helicity of the poly(C)/schizophyllan complex observed by AFM and SEM”, Carbohydr. Res. 339, 251-258 (2004).

10. K. Hayashi, K. Hayama, K. Masunaga, W. Futagami, S.-W. Lee, and K. Toko, “Analysis of adsorbing molecules on Pt surface using electrochemical impedance spectroscopy”, IEICE Trans. Electron. E87-C(12), 2087-2092 (2004).

9. T. Kunitake and S.-W. Lee, “Molecular imprinting in ultrathin titania gel films via surface sol-gel process”, Anal. Chim. Acta 504, 1-6 (2004).

8. S.-W. Lee, I. Ichinose, and T. Kunitake, “Enantioselective Binding of Amino Acid Derivatives onto Imprinted TiO2 Ultrathin Films”, Chem. Lett. 31, 678-679 (2002).

7. I. Ichinose, T. Kikuchi, S.-W. Lee, and T. Kunitake, “Imprinting and Selective binding of Di- and Tri-Peptides in Ultrathin TiO2-Gel Films in Aqueous Solutions”, Chem. Lett. 31, 104-105 (2002).

6. S.-W. Lee and T. Kunitake, “Adsorption of TiO2 nanoparticles imprinted with D-glucose on a gold surface”, Mol. Cryst. and Liq. Cryst. 371, 111-114 (2001).

Untill 2000

5. S.-W. Lee, I. Ichinose, and T. Kunitake, “Molecular imprinting of protected amino acids in ultrathin multilayers of TiO2 gel”, Chem. Lett. 27, 1193-1194 (1998).

4. S.-W. Lee, I. Ichinose, and T. Kunitake, “Molecular Imprinting of Azobenzene Carboxylic Acid on a TiO2 Ultrathin Film by the Surface Sol-Gel Process”, Langmuir 14, 2857-2863 (1998).

3. C. H. Lee, N. H. Jeong, S. W. Lee, and T. Kitamura, “Novel Synthesis of Liquid-Crystalline 1,3-Butadiynes Using Coupling Reaction of Alkynyliodonium Salts with Organocopper Reagents”, J. Ind. & Eng. Chem. 3(2), 155-159 (1997).

2. B. C. Lee, Y. K. Shin, S. W. Lee, I. Lee, and W. H. Lee, “Nucleophilic Substitution Reactions of Benzoic Anhydrides Aniline in Methanol-Acetonitrile Mixture”, J. Kor. Chem. Soc. 41(2), 69-76 (1997).

1. B. C. Lee, S. W. Lee, and I. Lee, “Kinetics and Mechanism of Nucleophilic Substitution Reaction of Benzyl Chlorodes”, Bull. Nat. Sci. Chungbuk Natl. Univ. Kor. 5(1), 143-158 (1991).

Book contributions

11. (Chapter) S. Korposh, S.-W. Lee, and S. James, “Long Period Grating Based Fibre Optic Chemical Sensors”, in Fiber Optic Sensors”, Springer International Publishing, Switzerland (2017), Chap. 12, pp. 241-267.

10. (Chapter) S. Korposh, S. James, R. Tatam , and S.-W. Lee*, “Optical Fibre Long-Period Gratings Functionalised with Nano-Assembled Thin Films: Approaches to Chemical Sensing”, in: Current Trends in Short- and Long-period Fiber Gratings, INTECH (2013), Chap. 4, pp. 63-86.

9. (Chapter) S. Korposh, S. James, R. Tatam , and S.-W. Lee*, “Fibre-Optic Chemical Sensor Approaches Based on Nanoassembled Thin Films: A Challenge to Future Sensor Technology”, in: Current Developments in Optical Fiber Technology, INTECH (2013), Chap. 9, pp. 237-264.

8. (Chapter) S.-W. Lee, “Nano-Assembled Thin-Film-Based Gas Sensors”, in Biochemical Sensors: Mimicking Gustatory and Olfactory Senses”, Pan Stanford Publishing Pte. Ltd. (2013), Chap. 24, pp. 435-456.

7. (Book) S.-W. Lee and T. Kunitake (2012). “Handbook of Molecular Imprinting: Advanced Sensor Applications”, Pan Stanford Publishing Pte. Ltd.; ISBN: 978-981-4316-65-1 (Hardcover), 978-981-4364-32-4 (eBook).

6. (Chapter) S.-W. Lee, “Trace Detection Based on Cyclodextrin Anchored Molecularly Imprinted TiO2 Thin Films”, in: Handbook of Molecular Imprinting: Advanced Sensor Applications”, Pan Stanford Publishing Pte Ltd (2012), Chap. 12, pp. 421-451.

5. (Chapter) S.-W. Lee*, S. Korposh, R. Selyanchyn, and T. Kunitake, “Fundamentals and Perspectives of Molecular Imprinting in Sensor Applications”, in: Handbook of Molecular Imprinting: Advanced Sensor Applications”, Pan Stanford Publishing Pte Ltd (2012), Chap. 1, pp. 3-64.

4. (Chapter) S. Korposh, R. Selyanchyn, and S.-W. Lee*, “Environmental and bio-medical applications using quartz crystal microbalance (QCM) humidity sensors modified with nano-assembled thin films”, in: Humidity Sensors: Types, Nanomaterials and Environmental Monitoring, Nova Science Publishers, NY (2011), Chap. 2, pp. 93-116.

3. (Chapter) S. Korposh and S.-W. Lee*, “Fabrication of sensitive fibre-optic gas sensors based on nano-assembled thin films”, in: Optical Fibre, New Developments, IN-TECH, Vienna (2009), Chap. 1, pp. 1-16.

2. (Chapter) S.-W. Lee and T. Kunitake, “Molecular Imprinting by the Surface Sol-Gel Process-Templated Nanoporous Metal Oxide Thin Films for Molecular Recognition”, in: Self-Organized Nanoscale Materials, edited by D. J. Lockwood and M. Adachi, Kluwer/Plenum series on Nanostructure Science and Technolgy (2006), Chap. 5, pp. 186-220.

1. (Chapter) I. Ichinose, S.-W. Lee, and T. Kunitake, “Nanofabrication by the Surface Sol-Gel Process and Molecular Imprinting”, in: Supramolecular Organization and Materials Design, Cambridge University Press (2002), Chap. 6, pp. 172-213.