Minghuey Shieh
Name Minghuey Shieh
Email
Office Tel No. (02)77496118
Personal Website https://ntnud405b.wixsite.com/mshieh
Title Distinguished Professor
Research Metal Cluster Chemistry, Organometallics, Material Chemistry, Computational Chemistry
Research Specialization Major goals of our research include synthetic, magnetic, electrochemical, and theoretical studies of heavier main group elements-containing transition metal carbonyl clusters and polymers.

Academic Researches

    1. M. Shieh,* Y.-H. Li, C.-H. Lin and T.-Y. Sun, “Low-Valent, Multiply Bonded, Trigonal-Planar Sb Complex: Rational Syntheses, Dual Acidic/Basic Properties, and Unexpected Semiconducting Characteristics,” InorgChem202059, 16073. [10.1021/acs.inorgchem.0c02820]
    2. M. Shieh,* Y.-H. Liu, T.-S. Lin, Y.-C. Lin, W.-K. Cheng and R. Y. Lin, “Manganese Telluride Carbonyl Complexes: Facile Syntheses and Exotic Properties—Reversible Transformations, Hydrogen Generation, Paramagnetic, and Semiconducting Properties,” Inorg. Chem. 2020, 59, 6923. [10.1021/acs.inorgchem.0c00412]
    3. M. Shieh,* Y.-H. Liu, Y.-H. Li and R. Y. Lin, “Metal Carbonyl Cluster-Based Coordination Polymers: Diverse Syntheses, Versatile Network Structures, and Special Properties,” CrystEngComm 201921, 7341. [10.1039/C9CE01539FBack Cover 
    4. M. Shieh,* Y.-H. Liu, C.-C. Wang, S.-H. Jian, C.-N. Lin, Y.-M. Chen and C.-Y. Huang, “A Comparative Study on NHC-Functionalized Ternary Se/Te–Fe–Cu Compounds: Synthesis, Catalysis, and the Effect of Chalcogens,” New J. Chem. 201943, 11832. [10.1039/c9nj02051a] 
    5. M. Shieh,* Y.-H. Liu, C.-C. Wang, S.-H. Jian, C.-N. Lin, Y.-M. Chen and C.-Y. Huang, “A Comparative Study on NHC-Functionalized Ternary Se/Te–Fe–Cu Compounds: Synthesis, Catalysis, and the Effect of Chalcogens,” New J. Chem. 201943, 12191[10.1039/C9NJ90106J] Back Cover
    6. M. Shieh,* Y.-H. Liu, C.-Y. Huang, S.-W. Chen, W.-K. Cheng and L.-T. Chien, “The First Naked Bismuth–Chalcogen Metal Carbonyl Clusters: Extraordinary Nucleophilicity of the Bi Atom and Semiconducting Characteristics,” Inorg. Chem. 201958, 6706. [10.1021/acs.inorgchem.9b00080Supplementary Cover
    7. M. Shieh,* Y.-H. Liu, Y.-H. Li, C.-N. Lin and C.-C. Wang, “Functionalized NHC-incorporated Te─Fe─Cu clusters: Facile synthesis, electrochemistry, and catalytic reaction,” J. Organomet. Chem. 2018867, 161. [10.1016/j.jorganchem.2017.10.039]
    8. M. Shieh,* C.-C. Yu, K.-J. Hsing and W.-J. Chang, “A Multiply Bonded Trigonal-Planar Bismuth(III) Complex: Prodigious Lewis Acidity, Solvatochromism, Etherification, and Semiconducting Characteristics,” Chem. Eur. J. 201723, 11677. [10.1002/chem.201702396]
    9. M. Shieh,* C.-C. Yu, C.-Y. Miu, C.-H. Kung, C.-Y. Huang, Y.-H. Liu, H.-L. Liu* and C.-C. Shen, “Semiconducting Coordination Polymers Based on the Predesigned Ternary Te─Fe─Cu Carbonyl Cluster and Conjugation-Interrupted Dipyridyl Linkers,” Chem. Eur. J. 201723, 11261.[10.1002/chem.201701257] Selected as a Hot Paper[10.1002/chem.201702641] Front Cover
    10. C.-N. Lin, C.-Y. Huang, C.-C. Yu, Y.-M. Chen, W.-M. Ke, G.-J. Wang, G.-A. Lee* and M. Shieh,* “Iron Carbonyl Cluster-Incorporated Cu(I) NHC Complexes in Homocoupling of Arylboronic Acids: An Effective [TeFe3(CO)9]2- Ligand,” Dalton Trans201544, 16675. [10.1039/c5dt03242c]
    11. M. Shieh,* C.-Y. Miu, K.-J. Hsing, L.-F. Jang and C.-N. Lin, “Copper-incorporated mono- and di-TeRu5 Metal Carbonyl Complexes: Syntheses, Structures, and An Unusual Skeletal Arrangement,” Dalton Trans201544, 6526. [10.1039/C5DT00546A]
    12. M. Shieh,* Y.-Y. Chu, L.-F. Jang and C.-H. Ho, “CO and CO2 Fixation by Se─Ru─CO Hydride Clusters,” Inorg. Chem201453, 4284. [10.1021/ic500821z]
    13. C.-N. Lin, W.-T. Jhu and M. Shieh,* “Vapochemically and Mechanochemically Reversible Polymerization/Depolymerization of S─Fe─Cu Carbonyl Clusters,“ Chem. Commun. 201450, 1134. [10.1039/c3cc48303g]
    14. M. Shieh,* C.-H. Yu, Y.-Y. Chu, Y.-W. Guo, C.-Y. Huang, K.-J. Hsing, P.-C. Chen and C.-F. Lee, “Trigonal Bipyramidal and Square Pyramidal Chromium─Manganese Chalcogenide Clusters [E2CrMn2(CO)n]2─ (E = S, Se, Te; n = 9, 10): Synthesis, Electrochemistry, UV/Vis Absorption, and Computational Studies,” Chem. Asian J. 20138, 963. [10.1002/asia.201201163]
    15. M. Shieh,* C.-Y. Miu, Y.-Y. Chu and C.-N. Lin, “Recent Progress in the Chemistry of Anionic Groups 6─8 Carbonyl Chalcogenide Clusters,” Coord. Chem. Rev. 2012256, 637. [10.1016/j.ccr.2011.11.010]
    16. M. Shieh,* C.-Y. Miu, K.-C. Huang, C.-F. Lee and B.-G. Chen, “Stepwise Construction of Manganese-Chromium Carbonyl Chalcogenide Complexes: Synthesis, Electrochemical Properties, and Computational Studies,” Inorg. Chem201150, 7735. [10.1021/ic200885h]
    17. M. Shieh,* Y.-Y. Chu, M.-H. Hsu, W.-M. Ke and C.-N. Lin, “Lead-Chromium Carbonyl Complexes Incorporated with Group 8 Metals: Synthesis, Reactivity, and Theoretical Calculations,” Inorg. Chem. 201150, 565. [10.1021/ic101560u]
    18. C.-H. Ho, Y.-Y. Chu, C.-N. Lin, H.-W. Chen, C.-Y. Huang and M. Shieh,* “Selenium─Manganese Carbonyl Clusters: Synthesis, Reversible Transformation, Electrochemical Properties, and Theoretical Calculations,” Organometallics 201029, 4396. [10.1021/om1006819]
    19. M.Shieh,* C.-N. Lin, C.-Y. Miu, M.-H. Hsu, Y.-W. Pan and L.-F. Ho, “Chromium-Manganese Selenide Carbonyl Complexes: Paramagnetic Clusters and Relevance to C=O Activation of Acetone,” Inorg. Chem. 201049, 8056. [10.1021/ic101118y]
    20. M. Shieh,* C.-H. Ho,W.-S. Sheu* and H.-W. Chen, “Selective Insertion of Oxygen and Selenium into an Electron-Precise Paramagnetic Selenium─Manganese Carbonyl Cluster [Se6Mn6(CO)18]4−,” J. Am. Chem. Soc2010132, 4032. [10.1021/ja9091566]
    21. M. Shieh,* Y.-Y. Chu, C.-Y. Miu, P.-F. Wu and T.-M. Zeng, “Bimetallic Ru-Cu Tellurido Complexes: Controlled Synthesis and Electrochemical Studies of Copper Halide-TeRu5 and Te2Ru4 Clusters,”Dalton Trans201039, 1492. (Selected as a Hot Article) [10.1039/b919176c]
    22. B.-G. Chen, C.-H. Ho, C.-J. Lee and M. Shieh,* “Copper Halide-Incorporated Tellurium─Iron Carbonyl Complexes: Transformation, Electrochemical Properties, and Theoretical Calculations,” Inorg. Chem. 200948, 10757. [10.1021/ic901647n]
    23. M. Shieh,* C.-H. Ho, W.-S. Sheu*, B.-G. Chen, Y.-Y. Chu, C.-Y. Miu, H.-L. Liu and C.-C. Shen, “Semiconducting Tellurium–Iron–Copper Carbonyl Polymers,” J. Am. Chem. Soc. 2008130, 14114. [10.1021/ja8065623]
    24. M. Shieh,* C.-Y. Miu, C.-J. Lee, W.-C. Chen, Y.-Y. Chu and H.-L. Chen, “Construction of Copper Halide-Triiron Selenide Carbonyl Complexes: Synthetic, Electrochemical, and Theoretical Studies,” Inorg. Chem200847, 11018. [10.1021/ic8012552]
    25. M. Shieh,* M.-H. Hsu, W.-S. Sheu, L.-F. Jang, S.-F. Lin, Y.-Y. Chu, C.-Y. Miu, Y.-W. Lai, H.-L. Liu and J.-L. Her, “A New Series of Copper Halide-Bridged Ruthenium Telluride Carbonyl Complexes: Discovery of a Unique Semiconducting Cluster Chain Polymer [{PPh4}2{Te2Ru4(CO)10Cu4Br2Cl2}·THF]¥,” Chem. Eur. J. 200713, 6605. [10.1002/chem.200700135]
    26. M. Shieh,* L.-F. Ho, P.-C. Chen, M.-H. Hsu, H.-L. Chen, Y.-W. Guo, Y.-W. Pan and Y.-C. Lin, “Reaction of [Et4N]2[Te{Cr(CO)5}n] (n = 2, 3) toward Electrophiles: Reactivity Comparison and Theoretical Calculations,” Organometallics 200726, 6184. [10.1021/om700789a]
    27. M.-H. Hsu, R.-T. Chen, W.-S. Sheu and M. Shieh,* “Carbon Dioxide Fixation by an Unprecedented Hydroxo Lead-Chromium Carbonyl Complex: Synthesis, Reactivity, and Theoretical Calculations,” Inorg. Chem. 200645, 6740. [10.1021/ic060554o]
    28. Y.-W. Lai, J.-J. Cherng, W.-S. Sheu, G.-A. Lee and M. Shieh,* “Novel Types of Organic S-Fe-CO Complexes: Reaction of [SFe3(CO)9]2- with Propargyl Bromide,” Organometallics 200625, 184. [10.1021/om050694q]
    29.  M. Shieh,* S.-F. Lin, Y.-W. Guo, M.-H. Hsu and Y.-W. Lai, “New Strategy to Mixed-Group 6 Metal Carbonyl Telluride Complexes: Completion of the Trigonal Bipyramidal Clusters [Te2CrM2(CO)10]2- (M = Cr, Mo, W),” Organometallics 200423, 5182. [10.1021/om049515f]
    30. M. Shieh,* H.-S. Chen and Y.-W. Lai, “Reaction of the Tellurium-Capped Triiron Cluster [TeFe3(CO)9]2- with the Bifunctional Propargyl Bromide: Formation of a Series of Novel Organic Te-Fe-CO Complexes, Organometallics 200423, 4018. [10.1021/om049712e]
    31. M. Shieh,* R.-L. Chung, C.-H. Yu, M.-H Hsu, C.-H. Ho, S.-M. Peng and Y.-H. Liu, “The Unusual Paramagnetic Mixed-Metal Carbonyl Chalcogenide Clusters: [E2Cr2Fe(CO)10]2- (E = Te, Se),” Inorg. Chem200342, 5477. [10.1021/ic034081m]
    32. M. Shieh,* L.-F. Ho, Y.-W. Guo, S.-F. Lin, Y.-C. Lin, S.-M. Peng and Y.-H. Liu, “Carbonylchromium Monotelluride Complexes [Et4N]2[Te{Cr(CO)5}n] (n = 2, 3): Two Important Intermediates,” Organometallics 200322, 5020. [10.1021/om034033+]
    33. M. Shieh,* Y. Liou, M.-H. Hsu, R.-T. Chen, S.-J. Yeh, S.-M. Peng and G.-H. Lee, “A Unique Bismuth-Iron Chain Polymer Containing the ...-Bi-Fe-... Link: Formation and Structure of [n-BuBiFe(CO)4]¥,”  Angew. Chem. Int. Ed. Engl. 200241, 2384; Angew. Chem. 2002114, 2490. [https://doi.org/10.1002/1521-3773(20020703)41:13<2384::AID-ANIE2384>3.0.CO;2-%23]
    34. M. Shieh,* J.-J. Cherng, Y.-W. Lai, S.-M. Peng and Y.-H. Liu, “Carbonylchromium Derivatives of Bismuth: New Syntheses and Relevance to C-O Activation,” Chem. Eur. J. 20028, 4522. [10.1002/1521-3765(20021004)8:19<4522::AID-CHEM4522>3.0.CO;2-7]
    35. J.-J. Cherng, Y.-W. Lai, Y.-H. Liu, S.-M. Peng, C.-H. Ueng and M. Shieh,* “Synthesis of Chromium Pentacarbonyl Dertives of Arsenic(V) and Antimony(V). Contrasting Chemical Reactivity with Organic Halogen Derivatives,” Inorg. Chem200140, 1206. [10.1021/ic0004277]
    36. M. Shieh,* H.-S. Chen, H.-Y. Yang, S.-F. Lin and C.-H. Ueng, “Tellurium-Bridged Manganese Carbonyl Clusters: Synthesis and Structural Transformations of [Te4Mn3(CO)10]-, [Te2Mn3(CO)9]2-, [Te2Mn3(CO)9]-, and [Te2Mn4(CO)12]2-,” Chem. Eur. J. 20017, 3152. [10.1002/1521-3765(20010716)7:14<3152::AID-CHEM3152>3.0.CO;2-B]
    37. M. Shieh,* L.-F. Ho, L.-F. Jang, C.-H. Ueng, S.-M. Peng and Y.-H. Liu, “First Selenium-Capped Carbonyltrichromium Complex [Se2Cr3(CO)10]2-: a Novel Cr3 Ring Cluster,” Chem. Commun2001, 1014. [10.1039/b101283p]
    38. M. Shieh,* H.-S. Chen, H.-H Chi and C.-H. Ueng, “Synthesis of an Se-Bridged Triiron Acyl Cluster Complex and the Fischer-Type Carbene Complex Derived from It: Isolation of Rotation Isomers,” Inorg. Chem200039, 5561. [10.1021/ic000301+]
    39. J.-J. Cherng, G.-H. Lee, S.-M. Peng, C.-H. Ueng and M. Shieh,* “Synthesis and Characterization of a New Series of Chromium-Group 15 Hydride Complexes [Et4N]2[H{Cr(CO)5}3]) (E = As, Sb), Organometallics 200019, 213. [10.1021/om990717z]
    40. M. Shieh,* H.-S. Chen, Y.-H Yang and C.-H. Ueng, “[Mn(CO)4TeMe25-Te)(μ4-Te)Mn4(CO)12]- : A Pentacoordinate Bridging Tellurido Ligand in a Square Pyramidal Geometry,” Angew. Chem. Int. Ed. Engl199938, 1252. [10.1002/(SICI)1521-3773(19990503)38:9<1252::AID-ANIE1252>3.0.CO;2-A
Year Paper Title
2024 Syntheses, paramagnetism, and semiconducting characteristics of polynuclear manganese carbonyl chalcogenide anions: A review, Journal of Organometallic Chemistry, vol. 1001, Feb. 2024
2023 Selective uptake and removal of aromatic and heterocyclic compounds by para-dicyanobenzene-linked, EFe3(CO)9-incorporated (E = Te, Se), semiconducting Cu chain polymers, Journal of Organometallic Chemistry, vol. 1001, Nov. 2023
2023 Structure–property relationship of dipyridyl–Cu polymers containing inorganic clusters Te/SeFe3(CO)9, Journal of the Chinese Chemical Society, vol. 70, Mar. 2023
2022 Paramagnetic Semiconducting Se-Mn Clusters: A Mn3Se4-Stabilized Selenide Radical Intermediate and Its Aggregated Derivatives, Inorganic Chemistry, vol. 61, Dec. 2022
2022 A rare class of multiply bonded trigonal-planar pnictogen complexes: Rational syntheses, versatile reactivities, and unique semiconducting properties, Inorganica Chimica Acta, vol. 543, Sep. 2022
2021 Structure−Property Relationships of Inorganic−Organic Hybrid Semiconducting Se−Fe−Cu−CO Polymers, Inorganic Chemistry, vol. 60, Nov. 2021
2021 Ternary antimony–chalcogen iron carbonyl complexes and their derivatives: Syntheses, structures, reactivities, and low-energy-gap characteristics, Journal of Organometallic Chemistry, vol. 937, Apr. 2021
2020 Low-Valent, Multiply Bonded, Trigonal-Planar Sb Complex: Rational Syntheses, Dual Acidic/Basic Properties, and Unexpected Semiconducting Characteristics, Inorganic Chemistry, vol. 59, Oct. 2020
2020 Manganese Telluride Carbonyl Complexes: Facile Syntheses and Exotic Properties-Reversible Transformations, Hydrogen Generation, Paramagnetic, and Semiconducting Properties, Inorganic Chemistry, vol. 59, Apr. 2020
2019 Metal carbonyl cluster-based coordination polymers: diverse syntheses, versatile network structures, and special properties, CrystEngComm, vol. 21, Nov. 2019
2019 A comparative study on NHC-functionalized ternary Se/Te–Fe–Cu compounds: synthesis, catalysis, and the effect of chalcogens, New Journal of Chemistry, vol. 43, Jun. 2019
2019 Pnictogen-containing iron and chromium carbonyl complexes:From complexes to semiconducting frameworks, Journal of the Chinese Chemical Society, vol. 66, May. 2019
2019 The First Naked Bismuth−Chalcogen Metal Carbonyl Clusters: Extraordinary Nucleophilicity of the Bi Atom and Semiconducting Characteristics, Inorganic Chemistry, vol. 58, Apr. 2019
2018 Functionalized NHC-incorporated Te-Fe-Cu clusters: Facile synthesis, electrochemistry, and catalytic reaction, Journal of Organometallic Chemistry, vol. 867, Jul. 2018
2017 Ternary copper-incorporated group 8 (Ru or Fe) carbonyl chalcogenide complexes and polymers: From syntheses to applications, Journal of Organometallic Chemistry, vol. 849-850, Oct. 2017
2017 A Multiply Bonded Trigonal-Planar Bismuth(III) Complex: Prodigious Lewis Acidity, Solvatochromism, Etherification, and Semiconducting Characteristics, Chemistry-A European Journal, vol. 23, Jun. 2017
2017 Semiconducting Coordination Polymers Based on the Predesigned Ternary Te-Fe-Cu Carbonyl Cluster and Conjugation-Interrupted Dipyridyl Linkers, Chemistry-A European Journal, vol. 23, May. 2017
2016 Ternary Se-Ru-Cu clusters: Facile synthesis, electrochemistry, and UV/Vis absorption, Journal of Organometallic Chemistry, vol. 815-816, Aug. 2016
2015 Iron carbonyl cluster-incorporated Cu(I) NHC complexes in homocoupling of arylboronic acids: an effective [TeFe3(CO)9]2− ligand, Dalton Transactions, vol. 44, Oct. 2015
2015 Copper-Incorporated Mono- and Di-TeRu5 Metal Carbonyl Complexes: Syntheses, Structures, and an Unusual Skeletal Arrangement, Dalton Transactions, vol. 44, Apr. 2015
2014 CO and CO2 Fixation by Se−Ru−CO Hydride Clusters, Inorganic Chemistry, vol. 53, May. 2014
2014 Vapochemically and Mechanochemically Reversible Polymerization/Depolymerization of S–Fe–Cu Carbonyl Clusters, Chemical Communications, vol. 50, Feb. 2014
2014 Chromium- and Manganese-Containing Carbonyl Chalcogenide Clusters: Syntheses, Reactivities, and Special Properties, Journal of the Chinese Chemical Society, vol. 61, Jan. 2014
2013 Reactions of Iron Acyl Chalcogenide Clusters with Electrophiles: Reactivity Comparison and Theoretical Calculations, Journal of the Chinese Chemical Society, vol. 60, Jul. 2013
2013 Trigonal-Bipyramidal and Square-Pyramidal Chromium─Manganese Chalcogenide Clusters [E2CrMn2(CO)n]2─ (E = S, Se, Te; n = 9, 10): Synthesis, Electrochemistry, UV/Vis Absorption, and Computational Studies, Chemistry-An Asian Journal, vol. 8, May. 2013
2013 Controlled Synthesis of Copper Halide-Incorporated Triiron Carbonyl Sulfide Clusters: Synthesis, Electrochemistry, and Computational Studies, Polyhedron, vol. 52, Mar. 2013
2012 Recent Progress in the Chemistry of Anionic Groups 6─8 Carbonyl Chalcogenide Clusters, Coordination Chemistry Reviews, vol. 256, Mar. 2012
2011 Reactions of the μ3-Sulfido Triiron Cluster [SFe3(CO)9]2─ with Functionalized Organic Halides and Mercury Salts: Selective Reactivity, Electrochemistry, and Theoretical Calculations, New Journal of Chemistry, vol. 35, Nov. 2011
2011 Stepwise Construction of Manganese-Chromium Carbonyl Chalcogenide Complexes: Synthesis, Electrochemical Properties, and Computational Studies, Inorganic Chemistry, vol. 50, Aug. 2011
2011 Lead-Chromium Carbonyl Complexes Incorporated with Group 8 Metals: Synthesis, Reactivity, and Theoretical Calculations, Inorganic Chemistry, vol. 50, Jan. 2011
2010 Selenium-Manganese Carbonyl Clusters: Synthesis, Reversible Transformation, Electrochemical Properties, and Theoretical Calculations, Organometallics, vol. 29, Oct. 2010
2010 Chromium-Manganese Selenide Carbonyl Complexes: Paramagnetic Clusters and Relevance to C=O Activation of Acetone, Inorganic Chemistry, vol. 49, Sep. 2010
2010 Carbonylchromium Chalcogenide Complexes: Synthesis, Reactivity and Properties, Journal of the Chinese Chemical Society, vol. 57, Aug. 2010
2010 A Novel Synthesis of Calix[4]thiophenes and Calix[4]furans, Chemical Communications, vol. 46, Jul. 2010
2010 Selective Insertion of Oxygen and Selenium into an Electron-Precise Paramagnetic Selenium-Manganese Carbonyl Cluster [Se6Mn6(CO)18]4-, Journal of the American Chemical Society, vol. 132, Mar. 2010
2010 Bimetallic Ru–Cu Tellurido Complexes: Controlled Synthesis and Electrochemical Studies of Copper Halide–TeRu5 and Te2Ru4 Clusters, Dalton Transactions, vol. 39, Feb. 2010
2009 Copper Halide-Incorporated Tellurium-Iron Carbonyl Complexes: Transformation, Electrochemical Properties, and Theoretical Calculations, Inorganic Chemistry, vol. 48, Nov. 2009
2008 Construction of Copper Halide-Triiron Selenide Carbonyl Complexes: Synthetic, Electrochemical, and Theoretical Studies, Inorganic Chemistry, vol. 47, Dec. 2008
2008 Semiconducting Tellurium-Iron-Copper Carbonyl Polymers, Journal of the American Chemical Society, vol. 130, Oct. 2008
2008 Mixed-Valence Tetra- and Hexanuclear Manganese Complexes from the Flexibility of Pyridine-Containing β-Diketone Ligands, Inorganic Chemistry, vol. 47, Mar. 2008
2007 Reaction of [Et4N]2[Te{Cr(CO)5}n] (n = 2, 3) toward Electrophiles: Reactivity Comparison and Theoretical Calculations, Organometallics, vol. 26, Dec. 2007
2007 Copper Halide-Bridged Ruthenium Telluride Carbonyl Complexes: Discovery of the Semiconducting Cluster Chain Polymer {[PPh4]2[Te2Ru4(CO)10Cu4Br2Cl2]·THF}n, Chemistry - A European Journal, vol. 13, Aug. 2007
2007 Synthesis, Structure, and Magnetic Properties of a Hexanuclear Manganese Complex, Polyhedron, vol. 26, Jun. 2007
2006 Carbon Dioxide Fixation by an Unprecedented Hydroxo Lead-Chromium Carbonyl Complex: Synthesis, Reactivity, and Theoretical Calculations, Inorganic Chemistry, vol. 45, Aug. 2006
2006 A New Hexanuclear Manganese Complex Exhibits Superparamagnetic Behavior, Chemistry Letters, vol. 35, Jul. 2006
2006 Selenium-Capped Trimolybdenum and Tritungsten Carbonyl Clusters [Se2M3(CO)10]2- (M = Mo, W), Journal of Organometallic Chemistry, vol. 691, Feb. 2006
2006 Novel Types of Organic S-Fe-CO Complexes: Reaction of [SFe3(CO)9]2- with Propargyl Bromide, Organometallics, vol. 25, Jan. 2006
2005 Reactivities of the Chalcogen-Capped Triiron Clusters [EFe3(CO)9]2- (E = Te, Se, S): Cluster Growth and Transformations, Comptes Rendus Chimie, vol. 8, Nov. 2005
2005 Synthesis and Structural Characterization of Dimolybdenum (IV) and Molybdenum (VI) Complexes with Trisbenzenethiolatophosphine Ligands, Inorganica Chimica Acta, vol. 358, Mar. 2005
2004 New Strategy to Mixed-Group 6 Metal Carbonyl Telluride Complexes: Completion of the Trigonal Bipyramidal Clusters [Te2CrM2(CO)10]2- (M = Cr, Mo, W), Organometallics, vol. 23, Oct. 2004
2004 Reaction of the Tellurium-Capped Triiron Cluster [TeFe3(CO)9]2- with the Bifunctional Propargyl Bromide: Formation of a Series of Novel Organic Te-Fe-CO Complexes, Organometallics, vol. 23, Aug. 2004
2004 Chalcogen-containing Manganese Carbonyl Clusters: Synthesis and Structural Transformations, Journal of Cluster Science, vol. 15, Jun. 2004
2003 Carbonylchromium Monotelluride Complexes [Et4N]2[Te{Cr(CO)5}n] (n = 2, 3): Two Important Intermediates, Organometallics, vol. 22, Nov. 2003
2003 The Unusual Paramagnetic Mixed-Metal Carbonyl Chalcogenide Clusters: [E2Cr2Fe(CO)10]2- (E = Te, Se), Inorganic Chemistry, vol. 42, Sep. 2003
2002 Chalcogen-Bridging Iron Carbonyl Complexes: Cluster Growth and Reactivity Comparison, Journal of the Chinese Chemical Society, vol. 49, Oct. 2002
2002 Carbonylchromium Derivatives of Bismuth: New Syntheses and Relevance to C-O Activation, Chemistry - A European Journal, vol. 8, Oct. 2002
2002 A Unique Bismuth-Iron Chain Polymer Containing the ... -Bi-Fe-... Link: Formation and Structure of [nBuBiFe(CO)4]n, Angewandte Chemie International Edition, vol. 41, Jul. 2002
2001 Tellurium-Bridged Manganese Carbonyl Clusters: Synthesis and Structural Transformations of [Te4Mn3(CO)10]-, [Te2Mn3(CO)9]2-, [Te2Mn3(CO)9]-, and [Te2Mn4(CO)12]2-, Chemistry - A European Journal, vol. 7, Jul. 2001
2001 First Selenium-Capped Carbonyltrichromium Complex [Se2Cr3(CO)10]2-: A Novel Cr3 Ring Cluster, Chemical Communications, vol. 必填欄位, Jun. 2001
2001 Syntheses of Chromium Pentacarbonyl Derivatives of Arsenic(V) and Antimony(V). Contrasting Chemical Reactivity with Organic Halogen Derivatives, Inorganic Chemistry, vol. 40, Mar. 2001
2000 Synthesis of an Se-Bridged Triiron Acyl Cluster Complex and the Fischer-Type Carbene Complex Derived from It: Isolation of Rotational Isomers, Inorganic Chemistry, vol. 39, Nov. 2000
2000 Synthesis and Characterization of the New Series of Chromium-Group 15 Hydride Complexes [Et4N]2[HE{Cr(CO)5}3] (E = As, Sb), Organometallics, vol. 19, Feb. 2000
1999 Reactivity of [Et4N]2[MeSb{Fe(CO)4}3] toward HOAc and [Cu(MeCN)4]BF4: Formation of [Et4N][Me(OAc)Sb{Fe(CO)4}2] and [MeSb{Fe(CO)4}{Fe2(CO)8}2], Journal of Organometallic Chemistry, vol. 587, Sep. 1999
1999 [(TeMe2)Mn(CO)4(μ5-Te)-(μ4-Te)Mn4(CO)12]-: A Pentacoordinate Bridging Tellurido Ligand in a Square-Pyramidal Geometry, Angewandte Chemie International Edition, vol. 38, Mar. 1999
1999 Recent Developments of Tellurium- and Selenium-Containing Iron Carbonyl Clusters, Journal of Cluster Science, vol. 10, Mar. 1999
1998 Structural Transformations of a Series of Tellurium-Iron Carbonylates and the Isolation of the Cubic Cluster [Te4Fe4(CO)10(dppm)], Organometallics, vol. 17, Sep. 1998
1998 New Synthesis of [SFe3(CO)9]2- and Its Reactivity toward Electrophiles, Organometallics, vol. 17, Jan. 1998
1997 Syntheses and X-ray Structures of a Series of Chalcogen-Containing Manganese Carbonylates [E2Mn3(CO)9]-, [E8C2Mn2(CO)6]2-, and [E2Mn4(CO)12]2- (E = Se, S), Inorganic Chemistry, vol. 36, Sep. 1997
1997 Reactivity of [SeFe3(CO)9]2- with Electrophiles: Formation of [SeFe2Ru3(CO)14]2-, [SeFe3(CO)9(μ-HgI)]-, Fe2(CO)6(μ-SeCHPhSe), and Se2Fe2(CO)6(μ-CH2)2, Organometallics, vol. 16, Feb. 1997
1996 Reactions of [Et4N]3[Sb{Fe(CO)4}4] with Alkyl Halides and Dihalides: Formation of the Alkyl- and the Dialkylantimony-Iron Carbonyl Complexes, Inorganic Chemistry, vol. 35, Sep. 1996
1995 Transformations of Selenium-Iron Carbonylates in Hieber's Synthesis: Isolation of a Novel Intermediate Complex [PhCH2NMe3]2[Se6Fe6(CO)12], Inorganic Chemistry, vol. 34, Sep. 1995
1995 Effects of Main-Group and Transition Elements on Bond Formation and Cleavage in Transition-Metal Chalcogenide Clusters: Reactions of E2Fe3(CO)9 (E = Te, Se) with [Co(CO)4]-, [Mn(CO)5]-, and [Fe(CO)4]2-, Inorganic Chemistry, vol. 34, May. 1995
1995 Facile Syntheses and Transformations of a Series of Tellurium-Iron Carbonyl Clusters: Crystal Structures of [PhCH2NMe3]2[Te6Fe8(CO)24], Fe2(CO)6(μ-TeCHCl2)2, and Fe2(CO)6(μ-TeCHPhTe), Inorganic Chemistry, vol. 34, Apr. 1995
1994 A New Route to [Fe4N(CO)12]- and Its Conversion to Fe4N(CO)11(NO), Chemistry (The Chinese Chemical Society), vol. 52, Jun. 1994
1994 Reactivity of [Te6Fe8(CO)24]2- and Its Conversion to [Te4Fe5(CO)14]2-, Journal of the Chinese Chemical Society, vol. 41, Apr. 1994
1994 Preparation of [SeFe3(CO)9]2- and Its Derivatives [{SeFe3(CO)9}2M]2- (M = Hg, Cd), Inorganic Chemistry, vol. 33, Mar. 1994
1994 Reaction of [Te6Fe8(CO)24]2- with Dihaloalkanes: A New Route to Organotellurium Complexes of Iron, Organometallics, vol. 13, Mar. 1994
1993 Reactions of [Et4N]3[Bi{Fe(CO)4}4] with Alkyl Halides and Dihalides: A General Method for the Synthesis of Anionic Complexes of the Type [Et4N]2[RBi{Fe(CO)4}3] and the Cyclic Complexes R2Bi2Fe2(CO)8, Organometallics, vol. 12, Dec. 1993
1993 An Unusual Mixed Tellurium-Iron Carbonylate: Synthesis, Structure, and Reactivity of [PhCH2NMe3]2[Te6Fe8(CO)24], Inorganic Chemistry, vol. 32, Aug. 1993
1993 Bridge between Main Group Element and Transition Metal Carbonyl Cluster, Chemistry (The Chinese Chemical Society), vol. 51, Jun. 1993
1993 Synthesis and X-ray Crystal Structure of a Tetrahedral Bismuth-Molybdenum Carbonyl Complex Possessing Three Bridging Methoxy Ligands, [Et4N]2[BiMo4(CO)12(μ3-OMe)3], Inorganic Chemistry, vol. 32, Jun. 1993
1993 Reaction of [Et4N]3[Bi{Fe(CO)4}4] with i-BuBr. Isolation of the Tetrahedral Anionic Complex [Et4N]2[i-BuBi{Fe(CO)4}3] and the Ring Complex (i-Bu)2Bi2Fe2(CO)8, Inorganic Chemistry, vol. 32, May. 1993
Year Paper Title
2024 Polyantimony chromium complexes: Syntheses, reactivities, paramagnetism, and semiconductivities, The 9th Asian Conference on Coordination Chemistry (ACCC9), Feb. 19-22, 2024, Bangkok, Thailand
2024 EFe3(CO)9-based (E = Te, Se, S) dipyridyl−Cu polymers: From syntheses to semiconductivities, The 9th Asian Conference on Coordination Chemistry (ACCC9), Feb. 19-22, 2024, Bangkok, Thailand
2023 Polynuclear molybdenum carbonyl telluride complexes: syntheses, reactivities, and their semiconducting properties, 2023 Chemistry National Meeting, National University of Kaohsiung, Mar. 10-12, 2023, Kaohsiung, Taiwan
2023 Clusters [EFe3(CO)9]2- (E = Te, Se)-Incorporated Host-Guest Polymers: Syntheses, Selectivity toward Organic Molecules, and Semiconducting Behaviors, 2023 Chemistry National Meeting, National University of Kaohsiung, Mar. 10-12, 2023, Kaohsiung, Taiwan
2022 Chromium carbonyl telluride complexes: syntheses, paramagnetic properties, and their coinage metal-inserted products, 2022 Chemistry National Meeting, National Taiwan Normal University, Mar. 11-13, 2022, Taipei, Taiwan
2022 Inorganic−organic hybrid S−Fe−Cu−bpee carbonyl polymers: mechanochemical syntheses and semiconducting behaviors, 2022 Chemistry National Meeting, National Taiwan Normal University, Mar. 11-13, 2022, Taipei, Taiwan
2021 Polynuclear group 6 metal (Mo, W) carbonyl tellurium complexes: redox properties and their coinage metal-inserted products, 2021 Chemistry National Meeting, National Central University, Mar. 12-14, 2021, Taoyuan, Taiwan
2019 Binary and Ternary Sb(0)-containing Hybrid Zintl Metal Carbonyl Clusters: Syntheses, Sturctures, Reactivties, Electrochemistry, Magnetic and Optical Properties, and DFT Calculations, Annual Meeting of Chemical Society Located in Taipei and The 18th Asian Chemical Congress, Dec. 08-12, 2019, Taipei
2019 Mixed Bismuth−Chalcogen Metal Carbonyl Complexes: From Complexes to Semiconducting Frameworks, Annual Meeting of Chemical Society Located in Taipei and The 18th Asian Chemical Congress, Dec. 08-12, 2019, Taipei
2019 Manganese Sulfur Carbonyl Clusters: Syntheses, Reactivity, Structural Transformations, and Semiconducting Properties, Annual Meeting of Chemical Society Located in Taipei and The 18th Asian Chemical Congress, Dec. 08-12, 2019, Taipei
2018 The [SeFe3(CO)9]2- Incorporated Host-Guest Polymers: Adsorption and Desorption of Guest molecules, Optical, and Electronic Transport Properties, Chinese Chemical Society National Meeting, Dec. 08-09, 2018, Kaohsiung
2018 Chalcogen- and Pnictogen-Containing Transition Metal Complexes: From Syntheses to Applications, Chinese Chemical Society National Meeting, Dec. 08-09, 2018, Kaohsiung
2018 Sb(0)-Containing Iron Carbonyl Chalcogenide Clusters: Synthesis, Electrochemistry, Optical Properties, and DFT Calculations, Chinese Chemical Society National Meeting, Dec. 08-09, 2018, Kaohsiung
2018 A Multiply Bonded Trigonal-Planar Antimony(0)-Chromium Carbonyl Complex: Dual Roles as a Lewis Acid and a Reducing Agent, 12th International Symposium of Chinese Inorganic Chemists (ISCIC-12), Oct. 26-29, 2018, Taipei
2018 Telluride−Manganese–Based Paramagnetic Carbonyl Clusters: Syntheses, Reversible Transformations, and Semiconducting Properties, 43rd International Conference on Coordination Chemistry (ICCC 2018), Jul. 30-Aug. 04, 2018, Taipei
2018 Multiply Bonded Trigonal-Planar Antimony(0)-Chromium Carbonyl Complexes: Lewis Properties, Protonation/Metallation, and Deprotonation/Demetallation, 2018 ACS Taiwan Chapter, May. 05, 2018, Taipei
2017 A New Series of High-Nuclearity Group 6 Metal Carbonyl Tellurides and Their Oxidative Structural Transformations, 2017 ACS Taiwan Chapter, May. 07, 2017, Taipei
2017 Ternary Copper-Incorporated Group 8 (Ru or Fe) Carbonyl Chalcogenide Complexes and Polymers: From Syntheses to Applications, 2017 Inorganic/Coordination Chemistry Symposium, Apr. 14, 2017, Taipei
2016 Monomeric Low-Valence Bismuth Complexes Stabilized by [EFe3(CO)9]2− (E = Se, Te) Ligands: Formation of Mixed Groups 15 and 16 Iron Clusters, The 14th International Symposium for Chinese Inorganic Chemists, Dec. 08-10, 2016, Singapore
2016 The [(u3-E)Fe3(CO)9]2- (E = S, Se, Te) Incorporated Host-Guest and Anion-Cation Polymers: Synthsis, Transformations, Optical, and Electronic Transport Properties, Chinese Chemical Society National Meeting, Dec. 02-04, 2016, Taichung
2016 The Facile Synthesis of a Series of the Rare Mixed Chromium–Iron Selenide Carbonyl Complexes, Chinese Chemical Society National Meeting, Dec. 02-04, 2016, Taichung
2016 Mixed Groups 15 and 16 Iron Clusters: Facile Syntheses and Electronic as well as Optical Properties, 2016 ACS Taiwan Chapter, May. 29, 2016, Taipei
2016 From Bismuthide to Bismuthinidene: Chemistry of the Unsaturated Bismuth Atom of the Trigonal-Planar [Bi{Cr(CO)5}3]–, 2016 ACS Taiwan Chapter, May. 29, 2016, Taipei
2015 Chromium carbonyl complexes with tetrahedral and trigonal-planar coordinated bismuth, The International Chemical Congress of Pacific Basin Societies 2015, Dec. 15-20, 2015, Hawaii
2015 Synthesis, Lewis adducts, and electrochemical as well as optical properties of two pnictogen-containing trigonal-planar complexes [E{Cr(CO)5}3]– (E = Sb, Bi), The International Chemical Congress of Pacific Basin Societies 2015, Dec. 15-20, 2015, Hawaii
2015 Trigonal-Planar and Tetrahedral Antimony–Chromium Carbonyl Complexes, Chinese Chemical Society National Meeting, Dec. 04-05, 2015, Hualien
2015 Ternary E─Ru─Cu (E = Se, Te) Octahedral-Based Clusters: Syntheses and Effects of Chalcogens and Copper Halides, Chinese Chemical Society National Meeting, Dec. 04-05, 2015, Hualien
2015 [EFe3(CO)9]2‒ (E = Se, Te) Clusters-Incorporated Cu(I) NHC Complexes in Homocoupling of Arylboronic Acids, Chinese Chemical Society National Meeting, Dec. 04-05, 2015, Hualien
2014 Sulfur-Manganese Hydride Carbonyl Clusters: Synthesis, Structural Transformation, and Computational Studies, Chinese Chemical Society National Meeting, Nov. 22-23, 2014, Hsinchu
2014 Mono- and Di-TeRu5 Metal Carbonyl Complexes Featuring Cu(I)─Cu(I) d10─d10 Interactions, International Conference on Organometallic Chemistry (26th ICOMC), Jul. 13-18, 2014, Sapporo, Japan
2013 Group 6 Metal Carbonyl Chalcogenide Complexes: Synthesis, Reactivity, and Electrochemical Properties, Chinese Chemical Society National Meeting, Nov. 23-24, 2013, Nantou
2013 Manganese-Containing Carbonyl Chalcogenide Complexes: Synthesis, Reactivity, Magnetic Properties, and Theoretical Calculations, Chinese Chemical Society National Meeting, Nov. 23-24, 2013, Nantou
2013 Cation Exchange of a Bismuth-Molybdenum Carbonyl Cluster [BiMo3(CO)9(μ-OCH2CH2OCH3)3Na]─, Chinese Chemical Society National Meeting, Nov. 23-24, 2013, Nantou
2013 C–C and C–N Coupling of Arylboronic Acids Promoted by N-Heterocyclic Carbene- and Phosphine-Supported TeFe3Cu2-Based Complexes, 14th Tetrahedron Symposium, Jun. 25-28, 2013, Vienna, Austria
2013 Computational Studies on Chromium─Manganese Chalcogenide Clusters, [E2CrMn2(CO)n]2─ (E = S, Se, Te; n = 9, 10): Structural Isomers, IR-Simulation and TD-DFT Caluculation, The 6th Worldwide Chinese Theoretical and Computational Chemistry Conference (WCTCC), Jun. 24-28, 2013, Danshui
2012 Mixed Iron─Manganese Chalcognide Carbonyl Clusters: Synthesis, Electrochemical, and Computational Studies, Chinese Chemical Society National Meeting, Dec. 01-02, 2012, Tainan
2012 Reactions of [EFe3(CO)12]2─ (E = Sn, Pb) with Sulfur: Synthesis, Electrochemistry, and Theoretical Calculations, Chinese Chemical Society National Meeting, Dec. 01-02, 2012, Tainan
2012 Controlled Synthesis of Copper Halide-Incorporated Triiron Carbonyl Sulfide Clusters: Synthesis, Electrochemistry, and Computational Studies, International Conference on Organometallic Chemistry (25th ICOMC), Sep. 02-07, 2012, Lisbon, Portugal
2011 Construction of Copper-Halide SeRu5- and Se2Ru4-Based Octahedral Clusters: Cluster Transformations, UV-vis Absorptions, and Electrochemistry, International Symposium on Catalysis and Fine Chemicals 2011, Dec. 04-08, 2011, Japan
2011 Chromium─Manganese Carbonyl Chalcogenide Clusters [E2CrMn2(CO)n]2─ (E = S, Se, Te; n = 9, 10): Reactivities, Paramagnetism, Electrochemistry, and Theoretical Studies, International Symposium on Catalysis and Fine Chemicals 2011, Dec. 04-08, 2011, Japan
2011 Reactions of Chalcogen─Iron Acyl Clusters with Electrophiles: Reactivity Comparison and Theoretical Calculations, International Symposium on Catalysis and Fine Chemicals 2011, Dec. 04-08, 2011, Japan
2011 Iron-Based Carbonyl Clusters Containing Elements of 15/16 Group: Synthesis, Reactivity, Electrochemistry, and Theoretical Calculations, Chinese Chemical Society National Meeting, Dec. 03-04, 2011, Hsinchu
2010 Controlled Synthesis, Electrochemical, and Photophysical Studies of Copper Halide-Incorporated Se-Ru Complexes, Chinese Chemical Society National Meeting, Dec. 03-05, 2010, Taipei
2010 Reactions of EFe3(CO)9Cu2(MeCN)2 (E = Se, Te) with Bis(NHC) Ligands: Synthesis, Catalysis, Electrochemistry, and Photophysical Properties, Chinese Chemical Society National Meeting, Dec. 03-05, 2010, Taipei
2010 Copper-Bridged Group 8 Carbonyl Chalcogenide Complexes: from Clusters to Semiconducting Polymers, The Cross-the-strait Symposium on Material Science (CSMS-2010), Nov. 18-23, 2010, Fuzhou
2010 Reactions of the Chalcogen-Capped Triiron Clusters [EFe3(CO)9]2- (E = S, Se, Te) with Group IX, XI, and XII Metal Ions: Synthesis, Cluster growth, and Electrochemistry, 8th International Symposium of Chinese Inorganic Chemists (ISCIC-8), Oct. 22-25, 2010, Taipei
2010 Reactions of the μ3-Sulfido Triiron Cluster [SFe3(CO)9]2- with Functionalized Halides: Selective Reactivity and Theoretical Calculations, 8th International Symposium of Chinese Inorganic Chemists (ISCIC-8), Oct. 22-25, 2010, Taipei
2010 Main-Group-Containing Chromium Carbonyl Complexes, 8th International Symposium of Chinese Inorganic Chemists (ISCIC-8), Oct. 22-25, 2010, Taipei
2010 Generation, Reactivity, and Theoretical Calculations of Chromium-Manganese Selenide Carbonyl Complexes: Relevance to C=O Activation of Acetone, International Conference on Organometallic Chemistry (24th ICOMC), Jul. 18-23, 2010, Taipei
2010 Bimetallic Ru─Cu Tellurido Complexes: Controlled Synthesis and Electrochemical Studies of Copper Halide-TeRu5 and Te2Ru4 Clusters, International Conference on Organometallic Chemistry (24th ICOMC), Jul. 18-23, 2010, Taipei
2009 Selenium-Manganese Carbonyl Clusters: Synthesis and Electrochemical Studies, Chinese Chemical Society National Meeting, Dec. 04-06, 2009, I-Shou University
2009 A Series of Novel TeFe3(CO)9Cu2-based N-heterocyclic Carbene Complexes: Synthesis, Structure, and Catalysis, Chinese Chemical Society National Meeting, Dec. 04-06, 2009, I-Shou University
2009 Construction of Selenium–Iron–Copper Carbonyl Polymers, Chinese Chemical Society National Meeting, Dec. 04-06, 2009, I-Shou University
2009 A New Series of EFe3Cu2-based N-heterocyclic Carbene Complexes (E = S, Se, Te), Tenth Tetrahedron Symposium, Jun. 23-26, 2009, Paris, France
2008 Copper Halide-Incorporated Tellurium-Iron Carbonyl Complexes: Transformation, Reactivity, and Theoretical Calculations, Chinese Chemical Society National Meeting, Dec. 05-07, 2008, Changhua
2008 Construction of Copper Halide-Triiron Selenide Carbonyl Complexes: Synthetic, Electrochemical, and Theoretical Studies, Chinese Chemical Society National Meeting, Dec. 05-07, 2008, Changhua
2008 Semiconducting Tellurium–Iron–Copper Carbonyl Polymers, Chinese Chemical Society National Meeting, Dec. 05-07, 2008, Changhua
2008 Semiconducting Copper-Bridged Group 8 Telluride Carbonyl Polymers, Chinese Chemical Society National Meeting, Dec. 04-06, 2008, Changhua
2007 Doubly-Bridged Te2Ru4-based Octahedral Clusters [Te2Ru4(CO)10Cu2X2]2- (X = Cl, Br): Synthesis, Electrochemistry, and Theoretical Calculations, International Symposium on Catalysis and Fine Chemicals 2007 (C&FC 2007), Dec. 17-21, 2007, Singapore
2007 Lead-Chromium Carbonyl Complexes: Synthesis, Reactivity, and Theoretical Calculations, International Symposium on Catalysis and Fine Chemicals 2007 (C&FC 2007), Dec. 17-21, 2007, Singapore
2007 Copper Halide-Bridged Ruthenium Telluride Carbonyl Complexes: Discovery of a Unique Semiconducting Cluster Chain Polymer [{PPh4}2{Te2Ru4(CO)10Cu4Br2Cl2}•THF]n, International Symposium on Catalysis and Fine Chemicals 2007 (C&FC 2007), Dec. 17-21, 2007, Singapore
2007 Reaction of [Et4N]2[Te{Cr(CO)5}n] (n = 2, 3) toward Electrophiles: Reactivity Comparison and Theoretical Calculations, Chinese Chemical Society National Meeting, Dec. 14-16, 2007, Hsinchu
2007 Synthesis and Structural Transformations of Selenium-Manganese Carbonyl Clusters, Chinese Chemical Society National Meeting, Dec. 14-16, 2007, Hsinchu
2006 Selenium-Capped Trimolybdenum and Tritungsten Carbonyl Clusters [Se2M3(CO)10]2- (M = Mo, W), 6th International Symposium by Chinese Inorganic Chemists (ISCIC-6), Dec. 17-21, 2006, Singapore
2006 Novel Types of Organic S-Fe-CO Complexes: Reaction of [SFe3(CO)9]2- with Propargyl Bromide, 6th International Symposium by Chinese Inorganic Chemists (ISCIC-6), Dec. 17-21, 2006, Singapore
2006 Chromium Carbonyl Complexes Incorporated with Main Group Elements, 6th International Symposium by Chinese Inorganic Chemists (ISCIC-6), Dec. 17-21, 2006, Singapore
2006 Novel Types of Organic S-Fe-CO Complexes: Reaction of [SFe3(CO)9]2- with Propargyl Bromide, Chinese Chemical Society National Meeting, Nov. 24-26, 2006, Taipei
2006 Main Group-Containing Chromium Carbonyl Complexes, Chinese Chemical Society National Meeting, Nov. 24-26, 2006, Taipei
2005 Chalcogen-Containing Transition Metal Carbonyl Clusters, The 10th International Chemical Conference, Oct. 28-30, 2005, Taipei
2004 Chalcogen-Containing Manganese Carbonyl Clusters: Synthesis and Structural Transformations, 87th Canadian Chemical Conference, May. 29-Jun. 01, 2004, London, Ontario, Canada
2003 Chalcogen-Bridged Manganese Carbonyl Complexes: Cluster Transformation and Expansion, 225th National American Chemical Society Meeting New Orleans, Mar. 23-27, 2003, Louisiana, USA
2002 The New Series of Chromium Pentacarbonyl Derivatives of Group 15 Elements, 70th anniversary of the Chinese Chemical Society Meeting, Oct. 25-27, 2002, Taipei
1999 Synthesis and Characterization of Group 6 (M = Cr, Mo) Carbonyl Chalcogenide Complexes, The 8th Asian Chemical Congress, Nov. 21-24, 1999, Taipei
1994 Syntheses and Reactivities of a Series of Iron Carbonyl Clusters Containing Tellurium or Selenium, Chinese Chemical Society National Meeting, Nov. 25-27, 1994, Hsinchu
Year Project Title Participator Job Title Period Unit
2025 含銻及含硫族之過渡金屬羰基化合物及聚合物:合成、反應性、特殊的磁性及半導體性質研究 主持人 2023.08 ~ 2025.07 國科會
2024 含十五族與十六族之過渡金屬羰基團簇物及聚合物之合成與相關應用研究(3/3) 主持人 2022.08 ~ 2024.06 國科會
2023 含十五族與十六族之過渡金屬羰基團簇物及聚合物之合成與相關應用研究(2/3) 主持人 2021.08 ~ 2023.06 國科會
2022 含十五族與十六族之過渡金屬羰基團簇物及聚合物之合成與相關應用研究(1/3) 主持人 2020.08 ~ 2022.06 科技部(原國科會)
2021 含十五或十六族元素之過渡金屬羰基團簇化合物與聚合物:從合成到應用(2/2) 主持人 2019.08 ~ 2021.06 科技部(原國科會)
2020 含十五或十六族元素之過渡金屬羰基團簇化合物與聚合物:從合成到應用(1/2) 主持人 2018.08 ~ 2020.06 科技部(原國科會)
2019 含十六族元素之第七和第八族過渡金屬簇化合物及聚合物的合成與相關應用研究 主持人 2017.08 ~ 2019.06 科技部(原國科會)
2019 含十六族元素之第七和第八族過渡金屬簇化合物及聚合物的合成與相關應用研究 主持人 2016.08 ~ 2019.06 科技部(原國科會)
2016 含十六族元素之第七和第八族過渡金屬簇化合物及聚合物的合成與相關應用研究 主持人 2015.08 ~ 2016.07 科技部(原國科會)
2019 含十六族元素之第七和第八族過渡金屬簇化合物及聚合物的合成與相關應用研究 主持人 2015.08 ~ 2019.06 科技部(原國科會)
2015 含第十五、十六族之過渡金屬簇化合物及聚合物的合成與應用性探討(3/3) 主持人 2014.08 ~ 2015.07 國科會
2015 含第十五、十六族之過渡金屬簇化合物及聚合物的合成與應用性探討(2/3) 主持人 2013.08 ~ 2015.07 國科會
2015 含第十五、十六族之過渡金屬簇化合物及聚合物的合成與應用性探討(1/3) 主持人 2012.08 ~ 2015.07 國科會
2013 含第十五、十六族之過渡金屬簇化合物及聚合物的合成與應用性探討 主持人 2012.08 ~ 2013.07 國科會
2013 含主族的混合金屬簇化合物的合成及其應用性探討(3/3) 主持人 2011.08 ~ 2013.03 國科會
2011 含主族的混合金屬簇化合物的合成及其應用性探討(2/3) 主持人 2010.08 ~ 2011.07 國科會
2010 含主族的混合金屬簇化合物的合成及其應用性探討(1/3) 主持人 2009.08 ~ 2010.07 國科會
2010 含主族之過渡金屬簇化合物的合成與相關應用(3/3) 主持人 2008.08 ~ 2010.02 國科會
2009 含主族之過渡金屬化合物的合成與相關應用 主持人 2008.08 ~ 2009.07 國科會
2008 含主族之過渡金屬簇化合物的合成與相關應用(2/3) 主持人 2007.08 ~ 2008.07 國科會
2007 改善基礎研究設備-X射線繞射儀 國立臺灣師範大學 協同/共同主持人 2006.08 ~ 2007.07 國科會
2007 含主族之過渡金屬簇化合物的合成與相關應用(1/3) 主持人 2006.08 ~ 2007.07 國科會
2007 含十六族的過渡金屬簇化合物之合成與其相關應用(3/3) 主持人 2005.08 ~ 2007.01 國科會
2005 含十六族的過渡金屬簇化合物之合成與其相關應用(2/3) 主持人 2004.08 ~ 2005.07 國科會
2004 含十六族的過渡金屬簇化合物之合成與其相關應用(1/3) 主持人 2003.08 ~ 2004.07 國科會
2003 含十六族的混合金屬簇化合物之合成與化性研究(3/3) 主持人 2002.08 ~ 2003.07 國科會
2002 含十六族的混合金屬簇化合物之合成與化性研究(2/3) 主持人 2001.08 ~ 2002.07 國科會
2001 含十六族的混合金屬簇化合物之合成與化性研究(1/3) 主持人 2000.08 ~ 2001.07 國科會
2000 含硫、硒或碲的過渡金屬團簇化合物之合成與其相關反應(II) 主持人 1999.08 ~ 2000.07 國科會
1999 含硫、硒或碲的過渡金屬團簇化合物之合成與其相關反應(I) 主持人 1998.08 ~ 1999.07 國科會
1998 含硒或碲的過渡金屬團簇化合物之合成與化性研究(II) 主持人 1997.08 ~ 1998.07 國科會
1997 含銻或鉍的過渡金屬團簇有機化合物的合成與化性研究(I) 主持人 1996.08 ~ 1997.07 國科會
1996 含硒或碲的過渡金屬團簇化合物之合成與化性研究(I) 主持人 1995.08 ~ 1996.07 國科會
1995 含硒的鐵金屬簇化合物之合成與氧化還原反應研究 主持人 1994.08 ~ 1995.07 國科會
1994 含碲的過渡金屬簇有機化合物的合成與化性研究 主持人 1993.08 ~ 1994.07 國科會
1993 含碲的鐵金屬簇有機化合物的合成與化性研究 主持人 1992.08 ~ 1993.07 國科會
1992 含主要族元素的鐵金屬化合物的合成與化性研究(II) 主持人 1991.08 ~ 1992.07 國科會
1991 含主要族元素的鐵金屬團簇有機化合物的合成與化學性質的研究 主持人 1990.02 ~ 1991.01 國科會
Country School Name Department Degree Duration
U.S. Rice University Chemistry Ph.D. 1984.08 ~ 1988.06
Taiwan National Taiwan Normal University Chemistry B.S. 1978.09 ~ 1982.06
Organization Title Department Job Title Duration
National Science Council Precious instruments Panel Member 2013.01 ~ 2015.12
National Taiwan Normal University Department of Chemistry Distinguished Professor 2011.02 ~ Up to today
National Science Council Chemistry Consulting Panel Member 2009.01 ~ 2011.12
National Science Council Chemistry Research Promotion Center Panel Member 2004.01 ~ 2005.12
2003.08 ~ 2006.07
Academia Sinica Chemistry Adjunct Research Fellow 2002.10 ~ Up to today
National Science Council Inorganic Division Inorganic Panel Member 2000.01 ~ 2002.12
National Taiwan Normal University Department of Chemistry Professor 1994.08 ~ Up to today
National Taiwan Normal University Department of Chemistry Associate Professor 1989.08 ~ 1994.07
Texas A & M University Department of Chemistry Postdoctoral Research Associate 1988.08 ~ 1989.07
1982.08 ~ 1984.07
Honor Category Year Award Name Awarding Unit
Congratulations 2018 Distinguished Professor National Taiwan Normal University
Congratulations 2015 Excellence in Teaching National Taiwan Normal University
Congratulations 2015 Distinguished professor National Taiwan Normal University
Congratulations 2011 Distinguished professor National Taiwan Normal University
Congratulations 2009
Congratulations 2008
Congratulations 2007
Congratulations 2006
Congratulations 2005
Congratulations 2005
Off-campus Excellence 2000 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1999 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1998 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1997 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1996 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1995 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1994 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1993 A-level National Science Council Research Award National Science Council
Off-campus Excellence 1991 A-level National Science Council Research Award National Science Council