東海大學物理系奈米光電實驗室

著作與專利

流淚撒種的,必歡呼收割! "(詩一二六5)"


研 究 成 果

期刊論文 | 會議論文 | 專利 | 技術報告

共43篇
  2020
1.

Forest Shih-Sen Chien,* Asmida Herawati, Ming-Yuan He, Chih-Yang Huang, Cheng-Ying Chen, 2020: “Optical Responses of the heterojunctions in Cu2ZnSn(S,Se)4 solar cells studied by electric modulus spectroscopy,” ACS Appl. Electron. Mater. 2(3), 796-801.(2020)

(https://pubs.acs.org/doi/full/10.1021/acsaelm.9b00852)
2.

2. Sean P. Kelly, Kun-Ping Huang, Chen-Pan Liao, Riza Ariyani Nur Khasanah, Forest Shih-Sen Chien, Jwu-Sheng Hu, Chung-Lin Wu, I-Min Tso,* 2020: “Mechanical and structural properties of major ampullate silk from spiders fed carbon nanomaterials,” PLoS ONE 15(11): e0241829(2020)

(https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0241829)

 

2019
1. Forest Shih-Sen Chien,* Riza Ariyani Nur Khasanah, Pei-Te Lin, Yen-Fu Lin and Yuen-Wuu Suen,* 2019: “Impedance elements of significant junctions in InGaN light-emitting diodes studied by electric modulus spectroscopy,” IEEE Trans. Electron Devices, 66(8), 3393-3398.(2019)

(https://ieeexplore.ieee.org/abstract/document/8746774)
2.

2. Yun-Ming Sung, Yu-Ching Huang, Forest Shih-Sen Chien, and Cheng-Si Tsao, 2019: “Mechanism and analysis of thermal burn-in degradation of OPVs induced by Evaporated HTL,” IEEE J. Photovolt 9(3), 694-699.(2019)

(https://ieeexplore.ieee.org/document/8637003?arnumber=8637003&source=authoralert )
 

 

2018
1. 1. Chia-Te Yen, Yu-Ching Huang,* Zheng-Lin Yu, Hou-Chin Cha, Hsia-Tsai Hsiao, Yu-Ting Liang, Forest Shih-Sen Chien, and Cheng-Si Tsao*, 2018: “Performance Improvement and Characterization of Spray-Coated Organic Photodetectors,” ACS Appl. Mater. Interfaces 10(39), 33399-33406. (2018)

(https://pubs.acs.org/doi/full/10.1021/acsami.8b15140)
 

 

2017
1. Chang-Feng You, Cheng-En Cheng, Bi-Cheng Lei, Jia-Cih Jhang, Fang-Cheng Yu, Chen-Shiung Chang, Forest Shih-Sen Chien, Chi-Yen Huang,* 2017: “Improvement of the efficiency of dye-sensitized solar cells with fluorinated carbon-based liquid crystal dopant,” Chinese Journal of Physics 55(4), 1189-1194(2017).

(http://www.sciencedirect.com/science/article/pii/S0577907316308097)
2.

Chun-Ying Huang, Guan-You Lin, Pei-Te Lin, Jhih-Wei Chen, Chia-Hua Chen, and Forest Shih-Sen Chien,* 2017: “Influences of sintering temperature on low-cost carbon paste based counter electrodes for dye-sensitized solar cells,” Jap. J. Appl. Phys. 56(8), 082301..

(http://www.sciencedirect.com/science/article/pii/S0577907316308097)
3.

Chun-Ying Huang, Po-Hao Chen, Yeun-Jung Wu, Hai-Pang Chiang, Jih-Shang Hwang, Pei-Te Lin, Kuan-Yu Lai, Forest Shih-Sen Chien*, and Tai-Yuan Lin,* 2017: “Enhanced performance of ZnO-based dye-sensitized solar cells using TiO2/graphene nanocomposite compact layer,” Jap. J. Appl. Phys. 56(4), 045201(2017)

(http://iopscience.iop.org/article/10.7567/JJAP.56.045201/meta)
4.

Chun-Ying Huang, Gia-Wei Shu, Kuan-Yu Lai, Bi-Cheng Lei, Forest Shih-Sen Chien,* 2017: “Observation of charge coupling in InGaP/InGaAs/Ge triple-junction solar cells by electric modulus spectroscopy,” Applied Physics Letters 110(3), 033901.

(http://aip.scitation.org/doi/abs/10.1063/1.4974308)
 

 

2016
1. Cheng-En Cheng, Zheng-Kun Lin, Yu-Chang Lin, Bi-Chen Lei, C.-S. Chang, and Forest Shih-Sen Chien*, 2017: “Pt crystalline ultrathin films as counter electrodes for bifacial dye-sensitized solar cells,” Jap. J. Appl. Phys. 56(1), 012301.

( http://iopscience.iop.org/article/10.7567/JJAP.56.012301/meta )

2. Yu-Wei Chen, Sheng-Fong Sie, Nipapon Suriyawong, Belete Asefa Aragaw, Shih-Sen Chien, Jen-Bin Shi, and Ming-Way Lee,* 2016: “Pb5Sb8S17 Liquid-Junction Quantum Dot-Sensitized Solar Cells: Improved Performance by Modifying the Particle Size of the TiO2 Electrode,” J. Electrochem. Soc. 2016 163(14): H1122-H1126.

( http://jes.ecsdl.org/content/163/14/H1122.full )

3. J.-W. Chen, H.-C. Huang, D. Convertino, C. Coletti, L.-Y. Chang, H.-W. Shiu, C.-M. Cheng, M.-F. Lin, S. Heun, Forest Shih-Sen Chien, Y.-C. Chen, C.-H. Chen, and C.-L. Wu,* 2016: “Efficient n-type doping in epitaxial graphene through strong lateral orbital hybridization of Ti adsorbate,” Carbon 109, 300-305.

( http://www.sciencedirect.com/science/article/pii/S0008622316306510 )

4.

Chi-Yen Huang, Chang-Feng You, Cheng-En Cheng, Bi-Cheng Lei, Jia-Cih Jhang, Fang-Cheng Yu, Chen-Shiung Chang, and Forest Shih-Sen Chien*, 2016: “Liquid crystal-doped liquid electrolytes for dye-sensitized solar cells applications,” Optical Mat. Express 6(4), 255320.

( https://www.osapublishing.org/ome/abstract.cfm?uri=ome-6-4-1024 )

 

 

2015
1.

C.-E. Cheng, Franco Dinelli, C.-T. Yu, H.-W. Shih, Zingway Pei, C.-S. Chang, and Forest Shih-Sen Chien*, “Influences of thermal annealing on P3HT/PCBM interfacial properties and charge dynamics in polymer solar cells,” Jpn. J. Appl. Phys.54(12), 122301 (2015).

(http://iopscience.iop.org/article/10.7567/JJAP.54.122301)
2.

C.-E. Cheng, Y.-C. Lin, S.-Y. Tsai, Z.-K. Lin, P.-C. Lee, H.-Y. Miao, C.-S. Chang, and Forest Shih-Sen Chien,* “Impacts of high-electroactive-surface-area buckypaper counter electrodes on the photovoltaic performance for dye-sensitized solar cells,” J. Phys. D: Appl. Phys.48(35), 355107 (2015).

(http://iopscience.iop.org/article/10.1088/0022-3727/48/35/355107/meta;jsessionid=F805C9E8233EE9C3B23CBB527E755CB2.c4.iopscience.cld.iop.org)
3.

C.-Y. Lin, C.-E. Cheng, S. Wang, H.-W. Shiu, L.-Y. Chang, C.-H. Chen, T.-W. Lin, C.-S. Chang, and Forest Shih-Sen Chien,* “Synchrotron Radiation Soft X-ray Induced Reduction in Graphene Oxide Characterized by Time-Resolved Photoelectron Spectroscopy,” J. Phys. Chem. C.119(23), 12910-12915 (2015).

( http://pubs.acs.org/doi/full/10.1021/jp512055g )
4.

C.-E. Cheng, C.-W. Tsai, Zingway Pei, T.-W. Lin , C.-S. Chang, and Forest Shih-Sen Chien,* “UV-treated graphene oxide as anode interfacial layers for P3HT:PCBM solar cells,” J. Phys. D: Appl. Phys.48(25), 255103 (2015).

(http://iopscience.iop.org/0022-3727/48/25/255103 )
5.

Y.-Y. Hsu, C.-Y. Lin, Y.-C. Lai, K.-R. Wu, K.-K. Ng, C.-S. Chang, G.-C. Chi, P.-C. Yu, and Forest Shih-Sen Chien,* “Optical-power-dependent photodesorption kinetics of graphene studied by conductance response,” Optics Express 23 (11), 14344-14350 (2015).

(https://www.osapublishing.org/oe/abstract.cfm?uri=oe-23-11-14344&origin=search )

6.

C.-E. Cheng, H.-J. Liu, F. Dinelli, Y.-C. Chen, C.-S. Shiung Chang, Forest Shih-Sen Chien,* and Y.-H. Chu, “Revealing the flexoelectricity in the mixed-phase regions of epitaxial BiFeO3 thin films,” Scientific Reports 5, 8091 (2015).

(http://www.nature.com/articles/srep08091/metrics)
7.

W.-R. Liu, B.-H. Lin, C.-Y. Lin, S. Yang, C.-C. Kuo, Forest Shih-Sen Chien, C.-S. Chang, C.-H. Hsu,* and W.-F. Hsieh, “The effect of thermal annealing on the optical and electrical properties of ZnO epitaxial films growm on n-GaAs(001),” RSC Adv. 5(16), 12358-12364 (2015).

(http://pubs.rsc.org/en/Content/ArticleLanding/2015/RA/C4RA13771J#!divAbstract)
 

 

2014
1. C.-Y. Lin, H. W. Shiu, L. Y. Chang, C.-H. Chen, C.-S. Chang, and Forest Shih-Sen Chien,* “Core-Level Shift of Graphene with Number of Layers Studied by Microphotoelectron Spectroscopy and Electrostatic Force Microscopy,” J. Phys. Chem. C, 118(43), 24898-24904 (2014).
2. C.-E Cheng, Z. Pei, C.-C. Chen, C.-S. Chang and F. S.-S. Chien, "Hole transit in P3HT:PCBM solar cells with embedded gold nanoparticles," Sol. Energy Mater. & Sol. Cells 121, 80-84 (2014).
 

 

2013
1. C.-E. Cheng, C.-Y. Lin, C.-H. Shan, S.-Y. Tsai, K.-W. Lin, C.-S. Chang and F. S.-S. Chien,* "Platinum-graphene counter electrodes for dye-sensitized solar cells," J. Appl. Phys. 114, 014503 (2013).
2. H. S. Huang,* C. H. Chiu, I. T. Hong, H. C. Tung, and Forest Shih-Sen Chien, “Determining the sputter yields of molybdenum in low-index crystal planes via electron backscattered diffraction, focused ion beam and atomic force microscope,” Mater. Character. 83, 68-73 (2013).
3. C.-E. Cheng, C.-Y. Lin, H.-Y. Chang, C.-H. Huang, H.-Y. Lin, C.-H. Chen, C.-C. Hsu, C.-S. Chang and Forest Shih-Sen Chien,* “Surface enhanced Raman scattering of graphene with photo-assisted-synthesized gold nanoparticles,” Optics Express 21(5), 6547-6554 (2013).
4. C.-Y. Lin, C.-S. Chang, J.-H. Lin, C.-C. Hsu, and Forest Shih-Sen Chien,* “Optical controlled graphene-based nonvolatile ternary-logic memory with azobenzene copolymer,” Appl. Phys. Lett. 102(2), 013505 (2013).
 

 

2012
1. B. H. Lin, W. R. Liu, C. Y. Lin, S. T. Hsu, S. Yang, C. C. Kuo, C. H. Hsu, W. F. Hsieh, Forest Shih-Sen Chien, C. S. Chang, “Single domain m-plane ZnO grown on m-plane sapphire by radio frequency magnetron sputtering,” ACS Appl. Mat. Inter. 4(10), 5333-5337 (2012).
2. S.-Y. Tai, C.-J. Liu, S.-W. Chou, Forest Shih-Sen Chien, J.-Y. Lin, and T.-W. Lin, “Few-layer MoS2 nanosheets coated onto multi-walled carbon nanotubes as a low-cost and highly electrocatalytic counter electrode for dye-sensitized solar cells,” 22(47) 24753-24759 (2012).
3. C.-J. Liu, S.-Y. Tai, S.-W. Chou, Y.-C. Yu, K.-D. Chang, S. Wang, Forest Shih-Sen Chien, J.-Y. Lin,* and T.-W. Lin,* “Facile synthesis of MoS2/graphene nanocomposite with high catalytic activity toward triiodide reduction in dye-sensitized solar cells,” J. Mater. Chem. 22(39) 21057-21064 (2012).
4. J.-W. Chen, C.-L. Wang, H. W. Shiu, C.-Y. Lin, C.-S. Chang, Forest Shih-Sen Chien, C.-H. Chen, Y.-C. Chen, and C.-L. Wu*, “Graphene on Au-coated SiOx substrate: Its core-level photoelectron micro-spectroscopy study,” Appl. Phys. Express 5(8), 085101 (2012).
5. C.-H. Chen,* C.-E. Cheng, C.-C. Hsu, M.-N. Chang, H. W. Shiu, and Forest Shih-Sen Chien*, “Local interdiffusion at buried TiN/Si interfaces with scanning probes,” J. Phys. D: Applied Physics 45(21), 215307 (2012).
 

 

2011
1. Forest Shih-Sen Chien,* Y. T. Wu, G. L. Lai, and Y. H. Lai, “Disproportionation and comproprotionation reactions of resistive switching in polycrystalline NiOx films,” Appl. Phys. Lett. 98, 153513 (2011).
 

 

2010
1. C.-Y. Lin, C.-S. Chang, and Forest Shih-Sen Chien*, “Fabrication of Ni nanostructures on p-Si films and selective electrodeposition,” J. Nanosci. & Nanotechno. 10(7) 4454-4458 (2010).
2. S.-D. Tzeng, C.-H. Chiang, and Forest Shih-Sen Chien*, “Local modification of self-assembled monolayers by a photocatalytic probe,” J. Nanosci. & Nanotechno. 10(7), 4495-4499 (2010).
3. Forest Shih-Sen Chien,* C.-Y. Lin, C.-R. Huang, C.-S. Chang, and C. C. Hsu, “Polar orientation induced by local photo-assisted-poling in azo copolymer films,” J. Opt. Soc. Am. B, 27(4) 773-778 (2010).
4. C.-Y. Lin, W.-R. Liu, C.-S. Chang, C.-H. Hsu, W. F. Hsieh, and Forest Shih-Sen Chien*, “Effect of threading dislocations on local contacts in epitaxial ZnO films,” J. Electrochem. Soc., 157(3) H268-271 (2010).
5. Forest Shih-Sen Chien,* C.-R. Wang, Y.-L. Chan, H.-L. Lin, M.-H. Chen, and R.-J. Wu*, “Fast-response ozone sensor with ZnO nanorods grown by chemical vapor deposition,” Sensor and Actuat. B 144(1) 120-125 (2010).
 

 

2008
1. R.-J. Wu*, H.-L. Lin, M.-H. Chen, T.-M. Wu, and Forest Shih-Sen Chien, “Application of nanostructure ZnO for room working temperature ozone sensor,” Sensor Letters 6, 800-802(2008).
2. Forest Shih-Sen Chien,* C. Y Lin, and C. C. Hsu, “Local photo-assisted poling of azo copolymer films by scanning probe microscopy,” J. Phys. D 41, 235502 (2008).
3. J. H. Lin, N. D. Lai, C. H. Chiu, G. W. Rieger, J. F. Young, C. Y, Lin, Forest Shih-Sen Chien, and C. C. Hsu, “Fabrication of spatial modulated second order nonlinear structures and quasi-phase matched second harmonic generation in a poled azo-copolymer planar waveguide,” Optics Express 16(11) 7832 (2008).
 

 

2007
1. W.-R. Liu, W. F. Hsieh, C.-H. Hsu, K. S. Liang, and Forest Shih-Sen Chien, “Threading dislocations in domain-matching epitaxial films of ZnO,” J. Appl. Crystall. 40, pp. 924-930 (2007).
2. Forest Shih-Sen Chien, J.-B. Tu, W.-F. Hsieh, and S.-C. Cheng, “Tight binding theory for coupled photonic crystal waveguides,” Phys. Rev. B 75(12) 125113 (2007).
 

 

2006
1. W.-R. Liu, W. F. Hsieh, C.-H. Hsu, K. S. Liang, and, Forest Shih-Sen Chien, “Influence of threading dislocations on the electrical properties in epitaxial ZnO thin films,” J. Crystal Growth 297 (2) pp. 294-299 (2006).
2. Forest Shih-Sen Chien, S.-C. Cheng, Y.-J. Hsu, and W.-F. Hsieh, “Dual-band multiplexer/demultiplexer with photonic-crystal-wavguide couplers for bidirectional communications,” Opt. Commun. 266, pp. 592-597 (2006).
 

 

2005
1. Forest Shih-Sen Chien, W.-F. Hsieh, S. Gwo, J. Jun, R. M. Silver, A. E. Vladar, and J. A. Dagata, “Characterization of prototype silicon pitch artifacts fabricated by scanning probe oxidation and anisotropic wet etching,” J. Vac. Sci. Tech. B23(1), pp. 66-71 (2005).
2. Forest Shih-Sen Chien, Y.-J. Hsu, W.-F. Hsieh, and S.-C. Cheng, “Dual wavelength demultiplexing by coupling and decoupling of photonic crystal waveguides,” Optics Express 12(6) pp.1119-1125 (2004).( NSC 92-2112-M-009-037, SCI)
 

 

2002
1. Forest Shih-Sen Chien, W.-F. Hsieh, S. Gwo, A. E. Vladar and J. A. Dagata, “Silicon nanostructures fabricated by scanning probe oxidation and tetra-methyl ammonium hydroxide etching,” J. Appl. Phys. 19(12), pp. 10044-10050 (2002). (NSC 89-2112-M-009-071, SCI, cited times: 3) selected for the June 10, 2002 issue of the Virtual Journal of Nanoscale Science & Technology.
 

 

2001
1. S. Gwo, C.-L. Wu, Forest Shih-Sen Chien, T. Yasuda and S. Yamasaki, “Scanning porbe microscopy and lithography of ultrathin Si3N4 films grown on Si(111) and Si(001),” Jpn. J. Appl. Phys. 40(6B), pp. 4368-4372 (2001) (NSC 89-2112-M-007-093, SCI, cited times: 3).
2. J. A. Dagata, F. S.-S. Chien, S. Gwo, K. Morimoto, T. Inoue, J. Itoh, and H. Yokoyama, “Electric force microscopy with a single carbon nanotube tip,” Proc. SPIE 4344, pp. 58-71 (2001).(SCI)
3. Forest Shih-Sen Chien, W.-F. Hsieh, Y.-C. Chou, T. T. Chen, T.-S. Chao, and S. Gwo, “Nano-oxidation of silicon nitride films with an atomic force microscope: chemical mapping, kinetics and applications”, J. Appl. Phys. 89(4), pp. 2465-2472 (2001). (NSC 89-2112-M-007-077 & 89-2112-M-009-071, SCI, cited times: 14)
 

 

2000
1. Forest Shih-Sen Chien, J.-W. Chang, S.-W. Lin, Y.-C. Chou, T. T. Chen, S. Gwo, T.-S. Chao, and W.-F. Hsieh, “Nanometer-scale conversion of Si3N4 to SiOx,” Appl. Phys. Lett. 76(3), pp. 360-362 (2000). (NSC 88-2112-M-007-027 & 88-2112-M-007-022, SCI, cited times: 18)
  1999
1. Forest Shih-Sen Chien, C-L Wu, Y.-C. Chou, T. T. Chen, S. Gwo, and W.-F. Hsieh, “Nanomachining of (110)-oriented silicon by scanning probe lithography and anisotropic wet etching,” Appl. Phys. Lett. 75(16), pp. 2429-2431 (1999). (NSC 88-2112-M-007-002 & 88-2112-M-007-032, SCI, cited times: 14)
  Before 1999
1. G.-J. Hwang, Forest Shih-Sen Chien, C.-C. Chen, L.-J. Ma, and J.-C. Chan, "Establishing a Josephson-Array Voltage Standard System at NML, R.O.C.," IEEE Trans. Instru. Meas. 42(2), pp. 227-230 (1993).
2.

Forest Shih-Sen Chien, M. T. Tang, S. L. Chang, "Determination of the enatiomorph from intensity measurements of three-beam Bragg-surface diffraction of X-ray," Acta Cryst A45, pp. 703-708 (1989).

 

會議論文 | 期刊論文 | 專利 | 技術報告

1. 江俊皇、簡世森、曾賢德 “ Local photocatalytic decomposition of self-assembled monolayers achieved by scanning probe techniques ” 2008物理年會 Jan28-30, 交通大學 新竹台灣.
2. 林志遠, 簡世森, 許佳振, 張振雄, “Photo-assisted local poling of photoreactive copolymer thin films with scanning probe technique” 2008 物理年會, Jan 28-30, 交通大學 新竹 台灣.
3. 賴冠龍, 簡世森, “Annealed TiO2 thin film with Resistive switching effect” 2007台灣光電科技研討會 11/30-12/1, 中興大學 台中 台灣.
4. 江俊皇、簡世森、曾賢德 “ 以掃描探針顯微術在自組裝分子膜上進行光觸媒表面改質 ” 2007台灣光電科技研討會 11/30-12/1, 中興大學 台中台灣.
5. 簡世森、陳家浩、鄭承恩 “The titanium carbide nanostructures created by scanning probe lithography technique” 2007 Second Asia-Oceania Forum for Synchrotron Radiation Research 10/31-11/04 , 交通大學, 新竹 台灣.
6. 簡世森、林志遠、許佳振 “Local photo-assisted poling and relaxation of photoreactive copolymers studied by scanning probe microscopy” 2007光譜技術與表面科學研討會 7/24-25 東華大學 花蓮 台灣.
7. C. Y. Lin,a,b C. C. Hsu,b and Forest S.-S. Chien, “Local poling of ferroelectric copolymer by scanning probe microscopy” 2007 International Symposium of Functional Materials, 5/16-19, 浙江大學 Hangzhou, PRC.
8. 簡世森、林志遠、許佳振、林桎葦, “Local poling of photoreactive copolymer thin films with scanning probe technique” 2007 物理年會, Jan 23-25, 中央大學 中壢 台灣
9. 林志遠, 劉維仁, 徐嘉鴻, 梁耕三, 謝文峰, 簡世森 “Role of threading dislocations between structure and electrical properties on domain-epitaxially grown ZnO films” 2006 台灣光電科技研討會 Dec. 15-16, 清華大學 新竹 台灣.
10. 許志華, 鍾澤偉, 王昌仁, 簡世森, “利用靜電力顯微鏡研究氮化鎵應變與壓電極化的關係” 2006 台灣光電科技研討會 Dec. 15-16, 清華大學 新竹 台灣.
11. 鄭承恩, 簡世森, 陳家浩, “以掃描探針顯微術在鈦薄膜表面成長碳化鈦奈米結構” 2006 台灣光電科技研討會 Dec. 15-16, 清華大學 新竹台灣.
12. F. S.-S Chien, Wei-Rein Liu, C. C. Tsai, Chih-Yuan Li, Chia-Chen Hsu, C.S. Chang and Chia-Huang Hsu, “Effect of dislocations on contact potential in epitaxial ZnO thin films studied by electrostatic force microscopy,” MRS 2006 Spring Meeting, April 17-21, San Francisco, USA.
13. Shih-Yang Huang, Wei-Rein Liu, F.S.-S Chien, Chiang-Hung Hsu, Keng. S Liang, Wen-Feng Hsieh and Tzeng-Feng Liu, “Correlated scanning capacitance and conductive atomic force microscopy studies of dislocations in ZnO film,” MRS 2006 Spring Meeting, April 17-21, San Francisco, USA.
14. Wei-Rein Liu, Chiang-Hung Hsu, F. S.-S Chien, Keng.S Liang and Wen-Feng Hsieh, “Role of threading dislocations on domain-epitaxially grown ZnO films using XRD and TEM,” MRS 2006 Spring Meeting, April 17-21, San Francisco, USA.
15. Forest Shih-Sen Chien, H.-Y. Chen, S. Gwo, H.-F. Hsu, T.-N. Yang, S.-M. Lan, and C.-S. Tsao, “Effect of size distribution on Raman Intensity of silicon nanoparticles,” 物理年會, Feb. 2006, Taipei, Taiwan.
16. B. J. Wen, H. M. Tai, and Forest Shih-Sen Chien, “Nano patterning and nanomolding on the nitride films system,” 4th International Symposium on Surface Science and Nanotechnology (ISSS4), Nov. 14-17, 2005, Saitama, Japan.
17. Forest Shih-Sen Chien, Horng-Ying, Tsun-Neng Yang, Shan-Ming Lan, and Cheng-Si Tsao, “White-light photoluminescence of amorphous silicon quantum dots embedded in silicon nitride films,” 2005奈米國家型科技計劃成果發表會, Sep. 2005, Taipei, Taiwan.
18. Forest Shih-Sen Chien, W.-R. Liu, W.-F. Hsieh, C.-H Hsu, and K.-S. Liang, “Microscopic characterization of epitaxial ZnO thin films,” 第23屆光譜技術與表面科學研討會, July 2005, Chiayi, Taiwan.
19. W.-R. Liu, Forest Shih-Sen Chien, C.-H. Hsu, K. S. Liang, and W.-F. Hsieh, “Characterizing the electrical charge and structure of ZnO/sapphire(0001) thin films by scanning capacitance microscopy and grazing-incident x-ray diffraction,” 物理年會, Feb. 2005, Kaohsiung, Taiwan.
20. Forest Shih-Sen Chien, Y.-J Hsu, W.-F. Hsieh, S.-C. Cheng, “Dual-wavelength multiplexer/demultiplexer with photonic-crystal-waveguide coupler for bidirectional communications,” 物理年會, Feb. 2005, Kaohsiung, Taiwan.
21. B. J. Wen, Forest Shih-Sen Chien, H. M. Tai, “Kinetic study of nano patterning on metallic nitride films,” 2nd International Symposium on Nanomanufacturing, Korea, Nov. 2004.
22. Forest Shih-Sen Chien, Y.-J Hsu, and W.-F. Hsieh, “Design of an optical bidirectional module with photonic crystal waveguides,” Taiwan International Conference on Nano Science and Technology, June 2004, Hsinchu, Taiwan.
23. Forest Shih-Sen Chien, H. M. Tai, P. C. Kuo, and B. J. Wen, “Kinetics of local oxidation on metal nitrides thin film with proximal probes,” The 3rd Cross-Strait Workshop on Nano Science and Technology, April 2004, Hualien, Taiwan. 
24. Forest Shih-Sen Chien, Y.-J. Hsu, S.-C. Cheng and W.-F. Hsieh, “Dual wavelength demultiplexing by Zero coupling between photonic crystal waveguides,” 物理年會, Feb. 2004, Hsinchu, Taiwan.
25. P. C. Yang, Forest Shih-Sen Chien, W. F. Hsieh, “Design of omnidirectional reflector and beam splitter using one-dimensional photonic crystal heterostructure,” Optics & Photonics Taiwan’03, Dec. 2003.
26. Y. J. Hsu, Forest Shih-Sen Chien, S. C. Cheng, W. F. Hsieh, “Energy hopping in photonic waveguide,” Optics & Photonics Taiwan’03, Dec. 2003.
27. H. L. Shih, Forest Shih-Sen Chien, S. C. Cheng, W. F. Hsieh, “Anomalous imaging by a flat surface of photonic crystal bulk with negative refraction,” Optics & Photonics Taiwan’03, Dec. 2003.
28. Forest Shih-Sen Chien, Y.-C. You, B. C. Yao, J.-L. Hsieh, D.-Y. Lai, C.-S. Lai, and D. Jeng, “Patterning Si3N4 and TiN with scanning probe lithography,” IEEE Nano 2003, San Francisco, CA, USA.
29. Y.-M. Yeh, Forest Shih-Sen Chien, C.-S. Lai, and D. Jeng, “Study on fabrication of nano-mold using Nano-LIGA process,” 2003 Seminar on Mold and Die Technology, Taipei.
30. Forest Shih-Sen Chien, W.-F. Hsieh, S. Gwo, A. E. Vladar and J. A. Dagata, “Fabrication of Si nanostructures by scanning probe oxidation and tetra-methyl ammonium hydroxide,” AVS49, Denver, CO, USA, 2002.
31. B. C. Yao, Forest S.-S. Chien, S. Chen, Paul Kan-Wa Lui, and G. S. Peng, “Scanning probe lithography with real time position control interferometer,” IEEE Nano 2002
32. Forest Shih-Sen Chien, J. A. Dagata, W.-F. Hsieh and S. Gwo, “Nanomachining of Si with Si3N4 masks patterned by scanning probe microscopy,” 5th Nano Engineering and Micro System Technology Workshop, Hsinchu, Taiwan, Dec. 2001.
33. S. Y. Lin, S. C. Yang, J.-D. Su, D. P. Tsai, Forest Shih-Sen Chien, S. Gwo, and W.-F. Hsieh, “Nanolithography on silicon surface using a tuning fork STM/AFM,” AVS47, Boston, MA, U.S.A., 2000.
34. Forest Shih-Sen Chien, I.-P. Chen, and K.-J. Lin, “Automated self-calibration resistive divider for 10 V to 1 kV,” CPEM 2000 Digest, Sydney, Australia, 2000.
35. J.-W. Chang, Forest. Shih-Sen Chien, S.-W. Lin, S. Gwo, Y.-C. Chou, W.-F. Hsieh, and T. T. Chen, “Scanning probe lithography of silicon nitride thin film,” 物理年會, Feb. 2000.
36. Forest Shih-Sen Chien, S.-W. Lin, C-L Wu, S. Gwo, Y. C. Chou, T. T. Chen, and W.F. Hsieh, “Nanolithography and pattern transfer of Si using scanning probe lithography and anisotropic etch,” 物理年會, Feb. 2000.
37. C.-L. Wu, Forest Shih-Sen Chien, W.-F. Hsieh, T. T. Chen, Y.-C. Chou, and S. Gwo, “Nanomachining and pattern transfer of silicon using scanning probe lithography and anisotropic wet etching,” AVS46, Seattle, U.S.A., Oct. 1999.
38. Forest Shih-Sen Chien, J. W. Chang, S.-W. Lin, Y.-C. Chou, T. T. Chen, S. Gwo, T.-S. Chao, and W.-F. Hsieh, “Scanning probe lithography of silicon nitride thin films,” AVS46, Seattle, U.S.A., Oct. 1999.
39. Forest Shih-Sen Chien, C.-L. Wu, S. Gwo, W.-F. Hsieh, “Fabrication of Si-based 1-D photonic crystal with an atomic force microscope,” 物理年會, Feb. 1999.

專利 | 期刊論文 | 會議論文 | 技術報告

1.

H.-M. Tai and Forest Shih-Sen Chien, 2006.5.2: “Method and apparatus for oxidizing nitrides,” US 7,037,861 B2.

2. 戴鴻名,簡世森,2006.5.21,”氧化氮化物的方法與裝置”編號:I255256.
3. S. H. Tsao and Forest Shih-Sen Chien, 1997.11.18, “Versatile switching module,” U.S. Patent No. 5,689,399.
4. 簡世森,2019.02.01,“多重介面之半導體元件的分析方法”,編號:I649959。

技術報告 | 期刊論文 | 會議論文 | 專利

1. 簡世森, 果尚志 “新型柰米微影技術-探針微影之發展與應用,” 機械月刊, 2004, 5月.
2. 簡世森, 李朱育, 顏宏儒, 吳誌笙, 張啟生 “探針技術在奈米表面分析之應用,” 化工資訊與應用, 2004, 2月.
3. 簡世森, 果尚志, “原子力顯微鏡微影技術與應用,” 科儀新知 21(5), 2000.
4. 吳忠霖, 簡世森, 果尚志, ”以原子力顯微鏡製作奈米結構,” 物理雙月刊, 1999, 8月.
5. 簡世森,"NML約瑟芬電壓技術發展現況",量測資訊, 第65期, 1999, 1月



 

©東海大學物理系奈米光電實驗室 2009 all right reaserved