Chau Lai-Kwan Professor

  

Date of employment: Aug. 1, 1995

Specialty:
 Analytical Chemistry
Materials Chemistry

TEL (O)(886-5) 272-0411 ext. 66411

Email: chelkc@ccu.edu.tw

Lab Webpage

 

 

B.S.in Chemistry, Chinese University of Hong Kong, 1980

M.S. in Chemistry, University of Houston, 1986

Ph.D. in Iowa State University, 1990

Assistant Research Scientist, Department of Chemistry, University of Arizona, 1990-1994

Senior Fellow, Center for Bioengineering, University of Washington, 1994-1995

Assoc. Professor, National Chung Cheng University, 1995-2003

Professor, National Chung Cheng University, 2003-

Chairperson, Department of Chemistry and Biochemistry, National Chung Cheng University (2011-12)

Dean, College of Science, National Chung Cheng University (2012-)

Distinguished Professor, National Chung Cheng University (2019-)

 

Research Interests 

Optical waveguide-based particle plasmon resonance biosensing

Raman-barcoded bead sensors

Sol-gel, nanoparticle, and molecular films

 

 

 

Selected Publications 代表著作  [SCOPUS論文統計]
  • Fan, S.-M.; Chiang, C.-Y.;  Tseng, Y.-T.; Wu, T.-Y.; Chen, Y.-L.; Huang, C.-J.; Chau, L.-K.* Detection of Hg(II) at ppq levels by fiber optic plasmonic absorption using DNA hairpin and DNA-gold nanoparticle conjugates ACS Appl. Nano Mater., in press.
  • Wang, S.-F.; Lin, W,-Y.; Dai, J.-S.; Chen, Y.-L.; Chen, Y.-f.; Chau, L.-K.* Detection of amphetamine-type stimulants using sample derivatization and SALDI-TOF-MS J. Chin. Chem. Soc., in press.
  • Ngo, L. T.; Wang, W.-K.; Tseng, Y.-T.; Chang, T.-C.; Kuo, P.-L.; Chau, L.-K.*; Huang, T.-T.* MutS protein-based fiber optic particle plasmon resonance biosensor for detecting single nucleotide polymorphisms Anal. Bioanl. Chem., in press.
  • 王智賢周禮君 「表面增強拉曼散射標籤在免疫分析之應用」 化學 202179, 167-178.
  •  Chen, C.-H.; Chiang, C.-Y.*; Wu, C.-W.; Wang, C.-T.*; Chau, L.-K.* Integrated graphene oxide with noble metal nanoparticles to develop high sensitivity fiber optic particle plasmon resonance (FOPPR) biosensor for biomolecules determination Nanomater. 202111, 635.
  • Vu, D.T.; Vu-Le, T. T.; Nguyen, V. N.; Le, Q. M.; Wang, C.-R. C.; Chau, L.-K.; Yang, T.-S.; Chan, M. W. Y.; Lee, C.-I; Ting, C.-C.; Lin, J.-Y.; Kan, H.-C.; Hsu, C.-C.* Gold nanorods conjugated upconversion nanoparticles nanocomposites for simultaneous bioimaging, local temperature sensing and photothermal therapy of OML-1 oral cancer cells Int. J. Smart Nano Mater. 202112, 49-71.
  •  Huang, C.-C.*; Lai, Y.-S.; Wang, C.-H.; Chau, L.-K.; Chen, W.* Label-free SERS characterization of snake venoms by exploring the cysteine environs with bone-shaped gold nanoparticles J. Mater. Chem. B 20208, 10744-10753.
  • Chen, Y.-J.; Chen, Y.-Y.; Wang, K.-H.; Wang, C.-H.; Yang, C.-Y.; Chau, L.-K.*; Wang, S.-C.*  Integration of a thermoelectric heating unit with ionic wind-induced droplet centrifugation chip to develop miniaturized evaporation concentration device for rapid determination of Salmonella on food samples using antibody-functionalized SERS tags Sensors 202020, 7177.
  • Barshilia, D.; Chau, L.-K.; Chang, G.-E.* Low-cost planar waveguide-based optofluidic sensor for real-time refractive index sensing Opt. Express 202028, 27337.
  • Chang, T.-C.; Chiang, C.-Y.; Lin, M.-H.; Chen, I-K.; Chau, L.-K.*; Hsu, D.-S.*; Shieh, S.-S.; Kuo, C.-J.; Wang, S.-C.; Chen, Y.-f. Fiber optic particle plasmon resonance immunosensor for rapid and sensitive detection of methamphetamine based on competitive inhibition Microchem. J. 2020157, 105026.
  • Chaudhari, P. P.; Chau, L.-K.*; Tseng, Y.-T.; Huang, C.-J.; Chen, Y.-L. A fiber optic nanoplasmonic biosensor for the sensitive detection of ampicillin and its analogs Microchim. Acta 2020187, 396.
  • Lee, T.-J.; Chau, L.-K.; Huang, C.-J.* Controlled silanization: high molecular regularity of functional thiol groups on siloxane coatings Langmuir 202036, 5935-5943.
  • Tseng, Y.-T.; Li, W.-Y.; Yu, Y.-W.; Chiang, C.-Y.; Liu, S.-Q.; Chau, L.-K.*; Lai, N.-S.*; Chou, C.-C.* Fiber optic particle plasmon resonance biosensor for label-free detection of nucleic acids and its application to HLA-B27 mRNA detection in patients with ankylosing spondylitis Sensors 202020, 3137.
  • Chiang, C.-Y.; Huang, T.-T.; Wang, C.-H.; Huang, C.-J.; Tsai, T.-H.; Yu, S.-N.; Chen, Y.-T.; Hong, S.-W.; Hsu, C.-W.; Chang, T.-C.; Chau, L.-K.* Fiber optic nanogold-linked immunosorbent assay for rapid detection of procalcitonin at femtomolar concentration level Biosens. Bioelectron. 2020151, 111871.
  • Chen, W.-Y.; Wang, C.-H.; Wang, K.-H.; Chen, Y.-L.; Chau, L.-K.*; Wang, S.-C.* Development of microfluidic concentrator using ion concentration polarization mechanism to assist trapping magnetic nanoparticle-bound miRNA to detect with Raman tags Biomicrofluidics 202014, 014102.
  • 曾彥達、周禮君 「金奈米粒子合成與感測教學實驗模組」 台灣化學教育 2019, Vol. 31 (May 14, 2019).
  • SuS.-R.; Chen, Y.-Y.; Li, K.-Y.; Fang, Y.-C.; Wang, C.-H.; Yang, C.-Y.; Chau, L-.K.*; Wang, S.-C.* Electrohydrodynamically enhanced drying droplets for concentration of Salmonella bacteria prior to their detections using antibody-functionalized SERS-reporter submicron beads Sens. Actuat. B 2019283, 384-389.
  • Wang, Y.-S.; Yau, S.; Chau, L.-K.; Mohamed, A.; Huang, C.-J.* Functional biointerfaces based on mixed zwitterionic self-assembled monolayers for biosensing application Langmuir 201935, 1652-1661.
  • Vu, D. T.; Chiu, H.-W.; Nababan, R.; Le, Q. M.; Kuo, S.-W.; Chau, L.-K.; Ting, C.-C.; Kan, H.-C.; Hsu, C.-C.* Enhancing upconversion luminescence emission of rare earth nanophosphors in aqueous solution with thousands fold enhancement factor by low refractive index resonant waveguide grating ACS Photonics 20185, 3263-3271.
  • Wu, W.-T.*; Chen, C.-H.; Chiang, C.-Y.; Chau, L.-K.* Effect of surface coverage of gold nanoparticles on refractive index sensitivity in fiber-optic nanoplasmonic sensing Sensors 201818, 1759.
  • Liu, I-C.; Chen, P.-C.; Chau, L.-K.; Chang, G.-E.* Optofluidic refractive-index sensors employing bent waveguide structures for low-cost, rapid chemical and biomedical sensing  Opt. Express 201826, 273-283.
  • Yu, W.-N.; Manik, D.H.N.; Huang, C.-J.*; Chau, L.-K.* Effect of elimination on antifouling and pH-responsive properties of the carboxybetaine materials」 Chem. Commun. 201753, 9143-9146.
  • Lin, Y.-C.; Hsieh, W.-H.; Chau, L.-K.; Chang, G.-E.* Intensity-detection-based guided-mode-resonance optofluidic biosensing system for rapid, low-cost, label-free detection Sens. Actuators B 2017250, 659-666.
  • Chen, Y.-Y.; Fang, Y.-C.; Lin, S.-Y.; Lin, Y.-J.; Yen, S.-Y.; Huang, C.-H.; Yang, C.-Y.*; Chau, L.-K.*; Wang, S.-C.* Corona-induced micro-centrifugal flows for concentration of Neisseria and Salmonella bacteria prior to their quantitation using antibody-functionalized SERS-reporter nanobeads Microchimica Acta 2017184, 1021-1028.
  • Tseng, Y.-T. Lu, H.-Y.; Li, J.-R.; Tung, W.-J.; Chen, W.-H.; Chau, L.-K.* Facile functionalization of polymer surfaces in aqueous and polar organic solvents via 3-mercaptopropylsilatrane ACS Appl. Mater. Interfaces 20168, 34159-34169.
  • Hsu, C.-W.; Huang, C.-C.; Sheu, J.-H.; Lin, C.-W.; Lin, L.-F.; Jin, J.-S.; Chau, L.-K.; Chen, W.* Novel method for differentiating histological types of gastric adenocarcinoma by using confocal Raman microspectroscopy PLoS One 201611, e0159829.
  • Chiang, C.-C.; Tuyen, L. D.; Ren, C.-R.; Chau, L.-K.*; Wu, C.Y.; Huang, P.-J.; Hsu, C.C.* Fabrication of titania inverse opals by multi-cycle dip-infiltration for optical sensing Photonics Nanostruct. 201619, 48-54.
  • Wu, C.-W.; Chiang, C.-T.; Chen, C.-H.; Chiang, C.-S.; Wang, C.-T.; Chau, L.-K.* Self-referencing fiber optic particle plasmon resonance sensing system for real-time biological monitoring Talanta 2016146, 291-198.
  •  Lyu, S.-R.*; Chiang, C.-Y.; Cherng, J.-Y.; Huang, Y.-C.; Li, C.-H.; Lin, Y.-J.; Chang, C.-M.; Chau, L.-K.* Role of medial abrasion phenomenon in the pathogenesis of knee osteoarthritis Med. Hypotheses 201585, 207-211.
  • Ku, Y.-F.; Li, H-Y.; Hsieh, W.-H.; Chau, L.-K.; Chang, G.-E.* Enhanced sensitivity in injection-molded guided-mode-resonance sensors via low-index cavity layers Opt. Express 201523, 14850-14859.
  • Li, H.-Y.; Hsu, W.-C.; Liu, K.-C.; Chen, Y.-L.; Chau, L.-K.; Hsieh, S.; Hsieh, W.-H.* A low cost, label-free biosensor based on a novel double-sided grating waveguide coupler with sub-surface cavities Sens. Actuat. B 2015206, 371-380.
  • Lin, H.-Y.; Huang, C.-H.; Hsieh, Liu, L.-H.; W.-H.; Lin, Y.-C.; Chu, C.-C.; Wang, S.-T.; Kuo, I-T.; Chau, L.-K.*; Yang, C.-Y.* On-line SERS detection of single bacterium using novel SERS nanoprobes and a microfluidic dielectrophoresis device Small 201410, 4700-4710.
  • Chen, W.-H.; Tseng, Y.-T.; Hsieh, S.; Liu, W.-C.; Hsieh, C.-W.; Wu, C.-W.;  Huang, C.-H.; Lin, H.-Y.; Chen, C.-W.; Lin, P.-Y.; Chau, L.-K.* Silanization of solid surfaces via mercaptopropylsilatrane: a new approach of  constructing gold colloid monolayers RSC Adv. 20144, 46527-46535.
  • Hsieh, M.-L.; Chau, L.-K.*; Hon, Y.-S. Single-step approach for fabrication of vancomycin-bonded silica monolith as chiral stationary phase J. Chromatogr. A 20141358, 208-216.
  • Lin, H.-Y.; Huang, C.-H.; Lu, S.-H.; Kuo, I-T.; Chau, L.-K. Direct detection of orchid viruses using nanorod-based fiber optical particle plasmon resonance immunosensor Biosens. Bioelectron. 201451, 371-378.
  • Hsu, W.-T.; Feng, G.-H.; Cho, C.-L.; Chau, L.-K. Nonspecific binding removal and specific binding regeneration using longitudinal acoustic waves RSC Adv. 20133, 16159-16166.
  • Huang, Y.-C.; Chiang, C.-Y.; Li, C.-H.; Chang, T.-C.; Chiang, C.-T.; Chau, L.-K.; Huang, K.-W.; Wu, C.-W.; Wang, S.-C.; Lyu, S.-R. Quantification of tumor necrosis factor-a and matrix metalloproteinases-3 in synovial fluid by a fiber-optic particle plasmon resonance sensor Analyst 2013138, 4599-4606.
  •  Li, H.-Y.; Huang, C.-H.; Chen, S.-H.; Liu, Y.-C.; Chang, W.-Z.; Chau, L.-K. Tubular waveguide evanescent field absorption biosensor based on particle plasmon resonance for multiplex label-free detection Biosens. Bioelectron. 201341, 268-274.
  • Chang, T.-C.; Wu, C.-C.; Wang, S.-C.; Chau, L.-K.; Hsieh, W.-T. Using a fiber optic particle plasmon resonance biosensor to determine kinetic constants of antigen-antibody binding reaction Anal. Chem. 201385, 245-250.
  • Chau, L.-K., Chang, H.-T., Eds., From Bioimaging to Biosensors - Noble Metal Nanoparticles in Biodetection Pan Stanford Publishing, Singapore, 2013.  [ISBN: 978-981-4267-24-3 (Hardback), 978-981-4303-10-1 (eBook)]
  •  林幸瑩、黃貞翰、周禮君 「新型光學奈米探針:表面增強拉曼光譜標籤於生物檢測分析與應用」 化學 201371, 243-252.
  • Lin, H.-Y.; Huang, C.-H.; Huang, C.-C.; Liu, Y.-C.; Chau, L.-K. Multiple resonance fiber-optic sensor with time division multiplexing for multianalyte detection Opt. Lett. 201237, 3969-3971.
  • Tuyen, L.D.; Liu, A.-C.; Huang, C.-C.; Tsai, P.-C.; Lin, J.-H.; Wu, C.-W.; Chau, L.-K.; Yang, T.S.; Minh, L.Q.; Kan, H.-C.; Hsu, C.-C. Doubly resonant surface-enhanced Raman scattering on gold nanorod decorated inverse opal photonic crystals Opt. Express 201220, 29266-29275.
  • Tang, J.-L.; Chen, C.-H.; Chang, T.-C.; Wang, S.-C.; Chau, L.-K.; Wu, W.-T. Fabrication and characterization of a fused silica-base optical waveguide with femtosecond fiber laser pulses Microsyst. Technol. 201218, 1815-1821.
  • Tay, L.-L.*; Huang, P.-J.; Jamshid, T.; Shannon, R.; Wu, X.-H.; John, H.; Chau, L.-K.* Silica encapsulated SERS nanoprobe conjugated to the bacteriophage tailspike protein for targeted detection of Salmonella Chem. Commun. 201248, 1024-1026.
  • Lin, H.-Y.; Huang, C.-H.; Chau, L.-K.* Fiber optic particle plasmon resonance sensor based on plasmonic light scattering interrogation Ann. Phys. 2012524, 705-712.
  • Huang, K.-W.; Hsieh, C.-W.; Kan, H.-C.; Hsieh, M.-L.; Hsieh, S.*; Chau, L.-K.*; Cheng, T.-E.; Lin, W.-T. Improved performance of aminopropylsilatrane over aminopropyltriethoxysilane as a linker for nanoparticle-based plasmon resonance sensor Sens. Actuat. B 2012163, 207-215.
  • Huang, C.-C.; Huang, C.-H.; Kuo, I-T.; Chau, L.-K.*; Yang, T.-S.* Synthesis of silica-coated gold nanorod as Raman tags by modulating cetyltrimethylammonium bromide concentration Colloids Surf. A 2012409, 61-68.
  • Li, H.-Y.; Chen, C.-W.; Yang, H.-C.; Chau, L.-K.; Hsieh, W.-H.* Low cost, rapid fabrication of durable molds of grating arrays for nanoimprint lithography Microelectron. Eng2011, 88, 3062-3066.
  • Chen, C.-H.; Weng, T.-Z.; Wang, J.-N.; Cheng, C.-W.; Tang, J.-L.*; Chau, L.-K.*; Wu, W.-T.* Novel multiphase D-shaped fiber optic sensor realized by femtosecond laser machining J. Laser Micro/Nanoeng. 20116, 82-86.
  • Chau, L.-K.*; Kuo, C.-W.; Chu, Y.-W.; Liao, S.-H.; Lin, Y. -T.; Wang, C. R. C.* A fiber optic particle plasmon resonance biosensing platform based on detection of light scattering intensity from the proximal end J. Chin. Chem. Soc. 201158, 786-792.
  • Hsu, W.-T.; Hsieh, W.-H.; Cheng, S.-F.; Jen, C.-P.; Wu, C.-C.; Li, C.H.; Lee, C.-Y ; Li, W.-Y.; Chiang, C.-Y.; Lyu, S.-R.; Chau, L.-K.* Integration of fiber optic-particle plasmon resonance biosensor with microfluidic chip Anal.Chim. Acta 2011697, 75-82.
  • 周禮君 「新一代生物感測器專題報導簡介」 化學 201169,191-192.
  • 陳建興、吳瑋特、湯兆崙、周禮君 「飛秒雷射精微加工系統製作光纖感測器」 科儀新知 201132, 53-60.
  • Chen, H.-C.; Tsao, T.-C.; Li, W.-Y.; Shen, W.-C.; Cheng, C.-W.; Tang, J.-L.; Jen, C.-P.; Chau, L.-K.; Wu, W.-T.* Novel U-shape gold nanoparticles-modified optical fiber for localized plasmon resonance chemical sensing Microsyst. Technol201016, 1207-1214.
  • Chiang, C.-Y.; Hsieh, M.-L.; Huang, K.-W. ; Chau, L.-K.*; Chang, C.-M.; Lyu, S.-R.* Fiber-optic particle plasmon resonance sensor for detection of interleukin-1b in synovial fluids Biosens. Bioelectron. 201026, 1036-1042.
  • Chen, C.-H.; Chao, T.-C.; Li, W.-Y.; Shen, W.-C.; Cheng, C.-W.; Tang, J.-L. ; Chau, L.-K.*; Wu, W.-T.* Novel D-type fiber optic localized plasmon resonance sensor realized by femtosecond laser engraving J. Laser Micro/Nanoeng20105, 1-5.
  • Chuang, Y.; Lee, C.-Y.; Lu, S.-H.; Wang, S.-C.*; Chau, L.-K.*; Hsieh, W.-H. Using ac-field-induced electro-osmosis to accelerate biomolecular binding in fiber-optic sensing chips with microstructures Anal. Chem. 201082, 1123-1127.
  • 謝銘隆、周禮君 「貴金屬奈米粒子定域化表面電漿共振波在生物感測的應用」 化學 201068, 21-32.
  • 章嘉明、周禮君 「光纖式奈米生物感測儀」 量測資訊 2010133, 42-45.
  • 章嘉明、李佳瑜、江昌獄、周禮君 「免標定生物感測器」 科儀新知 201031, 48-55.
  • 章嘉明、李佳瑜、黃玶吉、王少君、周禮君 「貴金屬奈米粒子在生醫檢測上的應用實例」 臺灣奈米會刊 2010,21, 44-50.
  • 林建宏、黃家琪、杜名碧、巫晟逸、楊子萱、周禮君、張天立、林宏彝、甘宏志、許佳振 「結合飛秒雷射直寫技術與化學修飾方法製作三維表面增強拉曼散射基板」 物理雙月刊 201032, 203-207.
  • Huang, C.-T.; Jen, C.-P.*; Chao, T.-C.; Wu, W.-T.; Li, W.-Y.; Chau, L.-K. A novel design of grooved fibers for fiber-optic localized plasmon resonance biosensors Sensors 20099, 6456-6470.
  • Wu, C.-Y.; Huang, C.-C.; Jhang, J.-S.; Liu, A.-C.; Chiang, C.-C.; Hsieh, M.-L.; Huang, P.-J.; Tuyen, L. -D.; Minh, L.-Q.; Yang, T.-S.; Chau, L.-K.; Kan, H.-C.*; Hsu, C.-C.* Hybrid surface-enhanced Raman scattering substrate from gold nanoparticle and photonic crystal: maneuverability and uniformity of Raman spectra Opt. Express 200917, 21522-21529.
  • Huang, P.-J.; Tay, L.-L.*; Jamshid, T.; Shannon, R.; Chau, L.-K.* Single-domain antibody-conjugated nanoaggregate-embedded beads for targeted detection of pathogenic bacteria Chem. Eur. J. 200915, 9330-9334.
  • Huang, P.-J. ; Chau, L.-K.*; Yang,T.-S.*; Tay, L.-L.; Lin, T.-T. Nanoaggregate-embedded beads as novel Raman labels for biodetection Adv. Funct. Mater. 200919, 242–248.
  • Hsieh M.-L.; Li, G.-Y.; Chau, L.-K.*; Hon, Y.-S. Single-step approach to b-cyclodextrin-bonded silica as monolithic stationary phases for CEC J. Sep. Sci2008, 31, 1819-1827.
  • Chang, C.-Y.; Chau, L.-K.*; Hu, W.-P.; Wang, C.-Y.; Liao, J.-H. Nickel hexacyanoferrate multilayers on functionalized mesoporous silica supports for selective sorption and sensing of cesium Microporous Mesoporous Mater2008109, 505–512.
  • Wang, S.-C.*; Chen, H.-P.; Lai, Y.-W.; Chau, L.-K.; Chuang, Y.-C.; Chen, Y.-J. Using nonlinear ac electrokinetics vortex flow to enhance catalytic activities of sol-gel encapsulated trypsin in microfluidic devices Biomicrofluidics 20071, 034104.
  • Lai, N.-S.; Wang, C.-C.; Chiang, H.-L.; Chau, L.-K.* Detection of antinuclear antibodies by a colloidal gold modified optical fiber: comparison with ELISA Anal. Bioanal. Chem. 2007388, 901-907.
  • Lin, C.-L.; Shih, C.-L.; Chau, L.-K.* Amperometric L-lactate sensor based on sol-gel processing of an enzyme-linked silicon alkoxide Anal. Chem. 200779, 3757-3763.
  • Chen, C.-D.; Cheng, S.-F. ; Chau, L.-K.*; Wang, C. R. C.* Sensing capability of the localized surface plasmon resonance of gold nanorods Biosens. Bioelectron. 200722, 926-932.
  • Lin, T.-A.; Li, G.-Y.; Chau, L.-K.* Sol-gel monolithic anion-exchange column for capillary electrochromatography Anal. Chim. Acta2006, 576, 117-123.
  • Tang, J.-L.*; Cheng, S.-F.; Hsu, W.-T.; Chiang, T.-Y.; Chau, L.-K.* Fiber-optic biochemical sensing with a colloidal gold-modified long period fiber grating Sens. Actuat. B 2006, 119, 105-109.
  • Chau, L.-K.*; Lin, Y.-F.; Cheng, S.-F.; Lin, T.-J.* Fiber-optic chemical and biochemical probes based on localized surface plasmon resonance Sens. Actuat. B 2006113, 100-105.
  • 侯鎮球、許偉庭、周禮君 「高中職奈米材料課程實驗之設計利用化學與電化學還原法製備銀奈米粒子」 化學  2006, 64, 305-312.
  • 許偉庭、周禮君 「貴金屬奈米粒子感測器」 科儀新知 2006, 28, 38-45.
  • Cheng, S.-F.; Pao, K.-C.; Chau, L.-K.* Sol-gel-coated poly(methyl methacrylate) as a substrate for localized surface plasmon resonance biosensors J. Biomed. Nanotechnol20051, 143-150.
  • 許智偉、鄭淑芳、周禮君 「光子晶體之製備及其於化學感測上的應用」 化學 200563, 431-442.
  • Lin, C.-L.; Tien, P.; Chau, L.-K.* Electrochemical behavior of an anion-exchanger modified electrode prepared by sol-gel processing of an organofunctional silicon alkoxide Electrochim. Acta 200449, 573-580.
  • Cheng, S.-F.; Chau, L.-K.* Colloidal gold modified optical fiber for chemical and biochemical sensing Anal. Chem. 200375, 16-21.
  • 周禮君、林明祥、謝嘉育、余俊慶 「奈米結構含鈦氧化物光電催化材料與環境及能源」 光訊 2002, 95, 9-12.
  • 蔡裕榮、周禮君 「以溶膠凝膠法製備透明導電氧化物薄膜的探討」 化學  200260, 307-318.
  • Lin, C.-C.; Chau, L.-K.*; Chang, S.-S.; Wang, C. R. C.* Langmuir-Blodgett films of alkanethiolate gold nanorods J. Chin. Chem. Soc. 200350, 1015-1021.
  • Hsieh, Y.-Y.; Lin, Y.-H.; Yang, J.-S.; Wei, G.-T.*; Tien, P.; Chau, L.-K.* Electroosmotic flow controllable coating on capillary surface by sol-gel process for capillary electrophoresis J. Chromatogr. A 2002, 952, 255-266.
  • Li, C.-I; Lin, Y.-H.; Shih, C.-L.; Tsaur, J.-P.; Chau, L.-K.* Sol-gel encapsulation of lactate dehydrogenase for optical sensing of L-lactate Biosens. Bioelectron200217, 323-330.
  • Yeh, T.-C.; Tien, P.; Chau, L.-K.* Fiber-optic evanescent-wave absorption copper(II) sensor based on sol-gel-derived organofunctionalized silica cladding Appl. Spectrosc200155, 1320-1326.
  • Tien, P.; Chau, L.-K.*; Hsieh, Y.-Y.; Lin, W.-C.; Wei, G.-T.* Anion-exchange material with pH-switchable surface charge prepared by sol-gel processing of an organofunctional silicon alkoxide Chem. Mater200113, 1124-1130.
  • Tseng, J.-Y.; Lin, M.-H.; Chau, L.-K.* Preparation of colloidal gold multilayers with  3-(mercaptopropyl)trimethoxysilane as a linker molecule Colloids Surf. A 2001, 182, 239-224.
  • 周禮君、田珮 「有機無機混成溶凝膠及其應用」 強化塑膠廣用新知 200186, 24-35.
  • Wang, C.-C.; Li, C.-I; Lin, Y.-H.; Chau, L.-K.* Detection of riboflavin based on fluorescence enhancement of evanescent-wave excited β-cyclodextrin complex in sol-gel-derived porous coatings Appl. Spectrosc. 2000,54, 15-19.
  • 周禮君、田珮 「有機矽烷氧基前驅物衍生的有機無機混成溶凝膠材料」 化工技術 20008, 152-164.
  • Tien, P.; Chau, L.-K.* Novel sol-gel-derived material for separation and optical sensing of metal ions: propyl-ethylenediamine triacetate functionalized silica Chem. Mater199911, 2141-2147.
  • Chau, L.-K.*; Osborn, T.; Wu, C.-C.; Yager, P.* Microfabricated silicon flow cell for optical monitoring of biological fluids Anal. Sci199915, 721-724.