陳寶祺（Pao-Chi Chen）

職　　稱：教授

分　　機：（02）8209-3211分機5205

電子郵件：chenpc@mail2000.com.tw

學　　歷： 國立臺灣大學 化學工程 博士

研究領域： 微奈米粉末之製備與應用、酸氣之處理技術

研究成果：

Publications

1. P. C. Chen and C. Y. Tai, “Control of Crystal Habit and Particle Morphology of Calcium Sulfite Hemihydrate Crystals”, J. Crystal Growth, 123, pp.277-285(1992).
2. Tai, C. Y., P. C. Chen, S. M. Shih, “Size-Dependent Growth and Contact Nucleation of Calcite Crystals”, AIChE J., 39(9), pp.1472-1483(1993).
3.  P. C. Chen, Tai, C. Y, “Diffusion of Calcium Ion in Silica Gel”, J. Chin. Inst. Chem. Engrs., 324(3), pp.165-171(1993)
4. Tai, C. Y., P. C. Chen, “Crystal Growth and Agglomeration of Calcium Sulfite Hemihydrate”, I&EC, 34(4), pp.134-142(1995).
5. Tai, C. Y., P. C. Chen, “Nucleation, Agglomeration and Crystal Morphology of Calcium Carbonate”, AIChE J, 541(1), pp.68-77(1995).
6. Chen, P. C., C. Y. Tai and K. C. Lee, “Morphology and Growth Rate Carbonate Crystals in a Gas Liquid-Solid Reactive Crystallizer”, Chem. Eng. Sci, 52(21), pp.41-47(1997).
7. Chen, P. C., G. Y. Cheng, M. H. Kou, P. Y. Shia, P. O. Chung, ”Nucleation and Morphology of Barium Carbonate Crystals in a Semi-Batch Crystallizer,” J. Crystal Growth, 226, 458(2001).
8. Chen, P. C.*, G. H. Lay, Z. S. Kang, S. S. Jou, E., “Effect of Mixing Conditions on the Induction Time and Morphology of Calcium Oxalate Hydrates”, Bulletin of The College of Engineering National Taiwan University, 84, pp.153-161(2002).
9. Chen, P. C*., K. L. Kou, H. K. Tai, S. L. Jin, C. L. Jin, C. L. Lye, C. Y. Lin, “Removal of Carbon Dioxide by Reactive Crystallization in a Scrubber---Kinetics of Barium Carbonate Crystals,“ J. Crystal Growth, 237-239, 2166(2002)
10. 陳寶祺*，氣/液反應結晶之探討，化工，2002。
11. 陳寶祺*，反應結晶技術與應用，化工技術，9(2002)。
12. Chen, P. C.*, S. M. Liu, C. J. Jang, R. C. Hwang, Y. L. Yang, J. S. Lee, J. S. Jang, “Interpretation of Gas-Liquid Reactive Crystallization Data Using a Size-Independent Agglomeration model,” J. Crystal Growth, 257, 333(2003).
13. Chen, P. C.*, C. C. Chen, M. H. Fun, O. Y. Liao, J. J. Jiang, Y. S. Wang, C. S. Chen, “Mixing and crystallization kinetics in gas-liquid reactive crystallization,” Chem. Eng. Tech., 27(5) 519, (2004)
14. Chen, P. C.*, Welly Shi, Ruby Du, Vanessa Chen, “Mass transfer and absorption of acidity gas in an alkaline solution containing fine crystals using a pH-stat continuous bubble-column scrubber”, J. Chin. Inst. Chem.. Engrs., 36(3), 223(2005).
15. Clifford Y. Tai, P. C. Chen*, T. M. Tsao, “Growth kinetics of CaF₂ in a pH-stat fluidized-bed crystallizer,” J. Crystal Growth,290, 576 (2006).
16. Chen, P. C.*, Welly Shi, Ruby Du, Vanessa Chen, “Scrubbing of CO₂ green-house gases, accompanied by precipitation in a continuous bubble-column scrubber” Ind. Eng. Chem. Res., 47, 6336-6343(2008).
17. 陳寶祺*，林良專，以氨水吸收二氧化碳探討吸收與結晶現象，龍華科技大學學報，25, 41(2008)。
18. Chen, P. C.* and J. J. Wu, “Synthesis and characterization of zinc oxide from absorption of carbon dioxide”, Transcation of the Materials Research Society of Japan, 34(2), 221(2009)
19. 陳寶祺、呂冠蓁，利用超臨界二氧化碳快速膨脹法製備奈米二氧化鈦之研究， 礦冶雜誌, 52/2, p.61-67(2010)
20. Joseph, A. N., D. Mangalaraj, P. C. Chen, N. Ponpandian, Mechanical and Photocatalytic Properties of Hydroxyapatite/Titania Nanocomposites Prepared by Combined High Gravity and Hydrothermal Process, Composites Science and Technology, 70, pp.419–426 (2010)
21. Joseph Nathanael, D. Mangalaraj, Pao Chi Chen, N. Ponpandian, Nanostructured leaf like hydroxyapatite/TiO₂ composite coatings by simple sol-gel method, Thin Solid Films, 518,pp.7333-7338(2010).
22. JOSEPH NATHANAEL, D. MANGALARAJ, PAO CHI CHEN, D. NATARAJ, IMPROVED MECHANICAL PROPERTY OF HYDROTHERMALLY SYNTHESIZED HYDROXYAPATITE NANORODS REINFORCED WITH POLYETHYLENE, International Journal of Modern Physics B, Vol. 24, Nos. 1 & 2,pp. 215–223(2010).
23. Clifford Y. Tai, M. J. Hon, Pao-Chi Chen, A comparison of growth behavior between CaCO₃ and CaF₂ crystals in a constant-composition environment, Journal of the Taiwan Institute of Chemical Engineers, 42, pp.435–440(2011)
24. N. Sabari Arul , D. Mangalaraj , Pao Chi Chen, N. Ponpandian , C. Viswanathan, Strong quantum confinement effect in nanocrystalline cerium oxide, Materials Letters, 65, pp.2635–2838(2011)
25. N. Sabari Arul , D. Mangalaraj, Pao Chi Chen , N. Ponpandian , C. Viswanathan, Self assembly of Co doped CeO₂ microspheres from nanocubes by hydrothermal method and their photodegradation activity on AO₇, Materials Letters, 65,pp.3320-3322(2011)
26. Joseph, A. N., D. Mangalaraj, P. C. Chen, N. Ponpandian, Enhanced Mechanical Stability of Hydroxyapatite Nanorods Reinforced With Polyethylene, J. Nanoparticle Research, 13,pp.1841-1853(2011)
27. Joseph Nathanael, Sun Ig Hongb, D. Mangalaraj, Pao Chi Chen, Large scale synthesis of hydroxyapatite nanospheres by high gravity method, Chemical Engineering Journal, 173,pp. 846–854(2011).
28. Suraj Varma, Pao-Chi Chen, G. Unnikrishnan, Gas–liquid reactive crystallization for the synthesis of CaCO₃ nanocrystals, Materials Chemistry and Physics, 126,pp. 232–236 (2011).
29. Chee Meng Ng, Pao-Chi Chen*, Sivakumar Manickam, Hydrothermal crystallization of titania on silver nucleation sites for the synthesis of visible light nano-photocatalysts— Enhanced photoactivity using Rhodamine 6G, Applied Catalysis A: General, 433–434, pp.75–80(2012)
30. Chee Meng Ng, Pao Chi Chen*, and Sivakumar Manickam, Green High-Gravitational Synthesis of Silver Nanoparticles Using a Rotating Packed Bed Reactor (RPBR), Ind. Eng. Chem. Res, 51, 5375-5381(2012)
31. N. Sabari Arul, D. Mangalaraj, Pao Chi Chen, N. Ponpandian, P. Meena, Yoshitake Masuda ,Enhanced photocatalytic activity of cobalt-doped CeO₂ nanorods, J Sol-Gel Sci Technol, DOI 10.1007/s10854-012-0989-x(2012)
32. N. Sabari Arul, D. Mangalaraj, Tae Whan Kim, Pao Chi Chen, N. Ponpandian, P. Meena, Yoshitake Masuda, Synthesis of CeO₂ nanorods with improved photocatalytic activity: comparison between precipitation and hydrothermal process, J Mater Sci: Mater Electron, DOI 10.1007/s10854-012-0989-x(2012)
33. Joseph Nathanael, Sun Ig Hong, D. Mangalaraj, N. Ponpandian, and Pao Chi Chen, Template-Free Growth of Novel Hydroxyapatite Nanorings: Formation Mechanism and Their Enhanced Functional Properties, Cryst. Growth Des., 12, 3565-3574(2012)
34. Pao Chi Chen*, Jun-Wei Huang, and Jimmy Pang, An Investigation of Optimum NLC-Sunscreen Formulation Using Taguchi Analysis, Journal of Nanomaterials, Volume 2013, Article ID 463732, 10 pages, http://dx.doi.org/10.1155/2013/463732(2013).
35. Pao Chi Chen*, Kwannin Kuo, Ching Shang Cheng, Ching-Yi Lee, Chin-Guo Kuo, Kan Lin Hsue, A modified Delphi method to approach green energy competency criteria, IJTEE (2014).
36. Pao Chi Chen*, C. F. Huang, Hsiao-Wei Chen, Ming-Wei Yang,Chih-Ming Tsao, Capture of CO₂ From Coal-fired Power Plant With NaOH Solution in a Continuous Pilot-Scale Bubble-Column Scrubber, Energy Procedia,61, 1660-1664 (2014)
37. Pao-Chi Chen*, Welly Shi, Ruby Du, Vanessa Chen, Crystallization kinetics of barium carbonate crystals in a lab-scale, JTICE, 45, 2418-2426(2014)
38. Pao Chi Chen*, Chang-Cheng Liao, A Study on CO₂ Absorption in Bubble Column Using DEEA/EEA Mixed Solvent, International Journal of Engineering Research, 3(4), 78-82(2014)
39. Pao-Chi Chen*,Yi Xin Luo,Pao Wein Cai, CO₂ Capture Using Monoethanolamine in a Bubble-Column Scrubber, Chemical Engineering&Technology, 38(2), 274-282(2015).
40. Pao-Chi Chen*, C. H. Huang, Ting Su, H.-W.Chen, M. W. Yang, Optimum conditions for the capture of carbon dioxide with a bubble-column scrubber, IJGGS, 35, 47-55(2015).
41. Pao-Chi Chen^*, Joanne Lin, Effect of solution condition on the precipitation of nano-cupric oxide by using a high gravity process, Journal of the Taiwan Institute of Chemical Engineers, 59, 514-520(2016).
42. Pao-Chi Chen*, Ming-Wei Yang, Cheng-Hsun Wei, Sheng Zhong Lin, Selection of blended amine for CO₂ capture in a packed bed scrubber using the Taguchi method, International Journal of Greenhouse Gas Control 45 (2016) 245–252, (2016)
43. Pao Chi Chen^*, Sheng Zhong Lin, Absorption and Mass Transfer of CO2 in Monoethanolamine Solution, Materials for Modern Technology Ⅱ, 859, 153-157(2016)
44. N. Sabari Arul, Jeong In Han, Pao Chi Chen, Fabrication of β-Ni(OH)2 ∥ γ-Fe2O3 nanostructures for high-performance asymmetric supercapacitors, Journal of Solid State Electrochemistry, 22, 293-302(2018)
45. N. Sabari Arul,* Jeong In Han* and Pao Chi Chen, Manganese oxide@reduced graphene oxide||Polypyrrole based solid state supercapacitor, ChemElectroChem, 10.1002/celc.201800700
46. Pao-Chi Chen *, Po-Han Choua, Sheng-zhong LinaHsiao-Wei Chenc, Capturing CO2 by using a microalgae culture recycle solution, Chemical Engineering Technology, 40(12), 2274-2282(2017).
47. Pao Chi Chen * and Shun Chao Yu, CO2 Capture and Crystallization of Ammonia Bicarbonate in a Lab-Scale Scrubber, Crystals, 8(39), 1-13(2018)
48. Pao Chi Chen * and Sheng-Zhong Lin, Optimization in the Absorption and Desorption of CO2 Using Sodium Glycinate Solution, Appl. Sci. 2018, 8, 2041; doi:10.3390/app8112041
49. Pao Chi Chen*, Ling Chun Yang, Optimization and Characterization of Nano Aluminum Trihydrate-Based Flame-Retardant Materials in the Rotating Packed Bed Reactor, Materials Sciences and Applications, 2018, 9, 1036-1056 (http://www.scirp.org/journal/msa )
50. Pao Chi Chen*, Huan Sheng Tseng, Zi Qi Lai and Zi Xiang Liao, Capturing CO2 in a Bubble-Column Scrubber Using Blended Amine Solvent, In Proceedings of the International Workshop on Environment and Geoscience (IWEG 2018), pp. 76-81(2018).
51. Pao Chi Chen* and Y. L. Lai, Optimization in the stripping process of CO₂ gas using mixed amines, Energies, 12, 2202 (2019); doi:10.3390/en12112202.
52. Pao Chi Chen * and Shiun Huang Zhuo, CO₂ Capture in A Bubble-Column Scrubber Using MEA/CaCl₂/H₂O Solution—Absorption and Precipitation, Crystals,10, 694(2020); doi:10.3390/cryst10080694.
53. Pao-Chi Chen*, Xiao An Wang, Cerium Oxide Film Growth Using Radio-Frequency Sputtering Process, Materials Sciences and Applications, 2020, 11, 305-318, DOI: 10.4236/msa.2020.115021
54. Pao Chi Chen*, Ming-Wei Yang and Yan-Lin Lai, Hydrodynamic and Mass Transfer in the Desorption Process of CO2 Gas in a Packed-Bed Stripper, Processes 2021, 9, 46. https://doi.org/10.3390/pr9010046(IF=3.352)
55. Pao-Chi Chen*, Hsun-Huang Cho, Jyun-Hong Jhuang, Cheng-Hao Ku, Selection of mixed amines in the CO₂ capture process, C-J. of Carbon Research, C 2021, 7, 25. https://doi.org/10.3390/c7010025(IF=9.549)
56. Pao-chi Chen, Crystal Sizes and Energy Gaps of Cerium Oxide Using Co-Precipitation Method, Materials Sciences and Applications, 2022, 13, 213-231, DOI: 10.4236/msa.2022.134012
57. Pao-Chi Chen*, Shiun-Huang Zhuo and Jyun-Hong Jhuang, CO2 Capture and Crystallization of ATH Using Sodium Aluminate Solution in a Bubble Column Scrubber,  Energies 2022, 15, 1031. https://doi.org/10.3390/en15031031
58. Pao-Chi Chen*, Jyun-Hong Jhuang, Ting-Wei Wu, Chen-Yu Yang, Kuo-Yu Wang and Chang-Ming Chen, Capture of CO2 Using Mixed Amines and Solvent Regeneration in a Lab-Scale Continuous Bubble-Column Scrubber, Appl. Sci. 2023, 13, 7321. https://doi.org/10.3390/app13127321