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and T. N. Arunagiri, Zhang Y, Chyan* O, El-Bounani M, Kim MJ, Wu CT, Chen LC, Chen KH.  2005.  A 5 nm ruthenium thin film as a directly plate-able copper diffusion barrier. Appl. Phys. Lett.. 86:083104-(1-3).
T.R. Lu, Kuo* CT, Yang JR, Chen LC, Chen KH, Chen TM.  1999.  High purity nano-crystalline carbon nitride films prepared at ambient temperature by ion beam sputtering. Surface and Coatings Technology . 115:116-122.
Talwa, DN, Liao YC, Chen LC, Chen KH, Feng ZC.  2014.  Optical properties of plasma-assisted molecular beam epitaxy grown InN/Sapphire. Opt. Mater. . 37:1.
Tarntair, FG, Chen LC, Wei SL, Hong WK, Chen KH, Cheng HC.  2000.  High current density field emission from arrays of carbon nanotubes and diamond-clad Si tips. J. Vac. Sci. Tech. B 18:1207-1211.
Tarntair, FG, Wu JJ, Chen KH, Wen CY, Chen* LC, Cheng HC.  2001.  Field emission properties of two-layer structured SiCN films. Surface & Coating Tech.. 137:152-157.
Tarntair, FG, Wen CY, Chen LC, Wu JJ, Chen KH, Kuo PF, Chang SW, Chen YF, Hong WK, Cheng HC.  2000.  Field emission from quasi-aligned SiCN nanorods. Appl. Phys. Lett.. 76:20.
Thang, NQ, Sabbah A, Chen L-C, Chen K-H, Hai LV, Thi CM, Viet PV.  2020.  Localized surface plasmonic resonance role of silver nanoparticles in the enhancement of long-chain hydrocarbons of the CO2 reduction over Ag-gC3N4/ZnO nanorods photocatalysts, 2020. :116049. AbstractWebsite

The conversion of CO2 into hydrocarbon fuels via the photocatalytic reaction route is considered a potential strategy to concurrently address serious energy crisis and greenhouse gas emission problems. Nevertheless, the generation of long-chain hydrocarbon products (Cn, n ≥ 2) from the visible-light-reactive photocatalytic CO2 reduction has also been considering a contemporary challenge. Herein, we indicate that Ag nanoparticles (Ag NPs) loaded gC3N4/ZnO nanorods heterojunction (Ag-gC3N4/ZnO NRs abbreviation) has extended photoactive range and enhanced specific surface area. The combination of Ag NPs and gC3N4/ZnO NRs significantly enhances photocatalytic CO2 reduction efficiency to form the acetone product. Detail, the acetone production efficiency of Ag-gC3N4/ZnO NRs is 8.4 and 7.5 times higher than pure ZnO NRs and gC3N4/ZnO NRs at the same condition, respectively. This study represents a potential approach toward higher-energy-value hydrocarbons production and greenhouse gas emission mitigation.

Thang, NQ, Sabbah A, Chen L-C, Chen K-H, Thi CM, Viet PV.  2021.  High-efficient photocatalytic degradation of commercial drugs for pharmaceutical wastewater treatment prospects: A case study of Ag/g-C3N4/ZnO nanocomposite materials, 2021. Chemosphere. 282:130971. AbstractWebsite

Pharmaceutical drugs' removal from wastewater by photocatalytic oxidation process is considered as an attractive approach and environmentally friendly solution. This report aims to appraise the practical application potential of Ag/g-C3N4/ZnO nanorods toward the wastewater treatment of the pharmaceutical industry. The catalysts are synthesized by straightforward and environmentally-friendly strategies. Specifically, g-C3N4/ZnO nanorods heterostructure is constructed by a simple self-assembly method, and then Ag nanoparticles are decorated on g-C3N4/ZnO nanorods by a photoreduction route. The results show that three commercial drugs (paracetamol, amoxicillin, and cefalexin) with high concentration (40 mg L−1) are significantly degraded in the existence of a small dosage of Ag/g-C3N4/ZnO nanorods (0.08 g L−1). The Ag/g-C3N4/ZnO nanorods photocatalyst exhibits degradation performance of paracetamol higher 3.8, 1.8, 1.3 times than pristine g-C3N4, ZnO nanorods, and g-C3N4/ZnO nanorods. Furthermore, Ag/g-C3N4/ZnO nanorods have an excellent reusability and a chemical stability that achieved paracetamol degradation efficiency of 78% and remained chemical structure of the photocatalyst after five cycles. In addition, the photocatalytic mechanism explanation and comparison of photocatalytic drugs’ degradation ability have also been discussed in this study.

Tran Nguyen, NH, Nguyen TH, Liu Y-ren, Aminzare M, Pham ATT, Cho S, Wong DP, Chen K-H, Seetawan T, Pham NK, Ta HKT, Tran VC, Phan TB.  2016.  Thermoelectric Properties of Indium and Gallium Dually Doped ZnO Thin Films, 2016. ACS Applied Materials & InterfacesACS Applied Materials & Interfaces. 8(49):33916-33923.: American Chemical Society AbstractWebsite
Tu, WH, Hsu YK, Yen CH, Wu CI, Hwang JS, Chen LC, Chen KH.  2011.  Au nanoparticle modified GaN photoelectrode for photoelectrochemical hydrogen generation. Electrochem. Comm.. 13:530-533.
Tunuguntla, V, Chen WC, Newman TD, Hsieh MC, Lu SH, Su C, Chen LC, Chen KH.  2016.  Enhancement of charge collection at shorter wave lengths from alternative CdS deposition conditions for high efficiency CZTSSe solar cells. Solar Energy Materials & Solar Cells . 149:49-54.
Twu, J, Yu YY, Tang CW, Wang GJ, Chen KH.  1999.  Raman Spectroscopic Studies of the Thermal Decomposition of Molybdenum Oxide/2,2'-Bipyridine Compounds. Applied Spectroscopy. 9:1083.