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Shi, SC, Chen CF, Chattopadhyay S, Dhara SK, Chen KH, Ke BK, Chen* LC, Trinkler L, Berzina B.  2006.  Luminescence properties of wurtzite AlN nanotips. Appl. Phys. Lett.. 89:163127-(1-3).
Li, L-C, Huang K-H, Wei J-A, Suen Y-W, Liu T-W, Chen C-C, Chen L-C, Chen K-H.  2011.  Low-frequency contact noise of GaN nanowire device detected by cross-spectrum technique. J. J. App. Phys.. 50:06GF21.
Chen, KJ, Hong WK, Lin JB, Chen LC, Chen KH, Cheng* HC.  2001.  Low turn-on voltage field emission triodes with selective growth of carbon nanotubes. IEEE Electron Device Lett.. 22:516-518.
Lin, PH, Lin CR, Chen LC, Chen* KH.  2002.  Low temperature growth of aligned carbon nanotubes in large area. Int. J. of Modern Phys.. B16:853-859.
Wang, CH, Chen CC, Hsu HC, Du HY, Chen CP, Hwang JY, Chen LC, C.Shih H, Stejskal J, Chen* KH.  2009.  Low methanol-permeable polyaniline/nafion composite membrane for direct methanol fuel cell. J. Power. Sources. 190:279-284.
Dhara*, S, Wu JJ, Mangama G, Bera S, Magudapathy P, Wu CT, Nair KGM, Kamaruddin M, Yu CC, Yang MH, Liu SC, Tyagi AK, Narashiman SV, Chen LC, Chen KH.  2007.  Long-range ferromagnetic ordering at room temperature in Co+ implanted TiO2 nanorods. Nanotechnology. 18:325705.
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.

and P.D. Kichambare, Chen* LC, Wang CT, Ma KJ, Wu CT, Chen KH.  2001.  Laser irradiation of carbon nanotubes. Materials Chemistry and Physics. 72:218-222.
Wu, JY, Chen KH.  1996.  Large Area Epitaxial Growth of Diamond Films. J. of the Vacuum Soc. of Taiwan. 9:18.
Chen, CP, Ganguly A, Wang CH, Hsu CW, Hsu YK, Chang YC, Chen* KH, Chen* LC.  2009.  Label-free dual sensing of DNA molecules using GaN nanowires. Anal. Chem.. 81:36-42.
Lo, HC, Hsiung HI, Chattopadhyay S, Han HC, Chen CF, Leu JP, Chen KH, Chen LC.  2011.  Label free sub-picomole level DNA detection with Ag nanoparticle decorated Au nanotip arrays as surface enhanced Raman spectroscopy platform. Biosensors and Bioelectronics. 26:2413-2418.