依頼・招待講演リスト

1) “Selective Catalytic Reduction of Aromatic Nitro Compounds under CO/H2O Conditions Using Homogeneous Catalysis”
K. Nomura
Postsymposium of 7th International Symposium on Relations between Homogeneous and Heterogeneous Catalysis (京都, 5月, 1992).

2) “一酸化炭素/水系を用いる遷移金属錯体触媒による芳香族ニトロ化合物の高選択的還元反応”
野村琴広
日本化学会第70春季年会 (青山学院大学, 3月, 1996).

3) “一酸化炭素と水を用いる遷移金属錯体触媒による芳香族ニトロ化合物の高選択的還元反応”
野村琴広
日本化学会 岡山地区化学講演会 (倉敷, 10月, 1996).

4) “均一系錯体触媒による一酸化炭素/水系での芳香族ニトロ化合物の官能基選択的還元反応”
野村琴広
シンポジウム「ファインケミカルズ合成のための触媒開発」 (早稲田大学, 5月, 1998).

5) “Control of monomer sequence in ethylene/alfa-olefin copolymerization catalyed by nonbridged half-metallocene type titanium(IV) complexes – cocatalyst system”
K. Nomura
4th International Symposium on Organo-Metals Metal Complexes and Catalysis (OMC-IV, Lanzhou, China, 8月, 1999).

6) “プロピレン二量化に高活性・高選択性を示すニッケル-ホスフィン系錯体触媒の開発”
野村琴広
「工業触媒 技術開発と動向」 第14回セミナー (大阪, 10月, 1999).

7) “Olefin polymerization catalyzed by early and late transition metal complexes – cocatalyst system”
野村琴広, 小松隆志, Sodokmai Warit, 今西幸男
6th Japan-Korea Polyolefin Workshop (東京, 11月, 1999).

8) “オレフィン重合におけるシングルサイト触媒の新展開”
野村琴広
第17回高分子同友会 (東京, 1月, 2000).

9) “ポストメタロセン型の遷移金属錯体触媒によるオレフィン重合”
野村琴広
第27回有機金属化学セミナー (大阪, 5月, 2000).

10) “Olefin Polymerization Catalyzed by Early and Late Transition Metal Complexes – Cocatalyst System”
K. Nomura
5th International Symposium on Organo-Metals Metal Complexes and Catalysis (OMC-IV, Baoding, China, 8月, 2000).

11) “遷移金属錯体触媒によるオレフィン重合に関する最近の動向”
野村琴広
石油学会石油化学部会ファインケミカルズ研究会 (東京, 9月, 2000).

12) “プロピレン二量化に高活性・高選択性を示す均一系ニッケル錯体触媒の創製と工業化”
野村琴広, 鈴鴨剛夫
触媒学会関西若手の会 (大阪大学, 9月, 2000).

13) ”Olefin Polymerization Catalyzed by (Cyclopentadienyl)(aryloxy)titanium(IV) Complexes – Cocatalyst Systems”
野村琴広
2000 環太平洋国際化学会議 (Pacifichem 2000, Honolulu, Hawaii, 12月, 2000).

14) “ニッケル-ホスフィン錯体触媒による2,3-ジメチルブテン製造”
野村琴広, 鈴鴨剛夫, 佐藤 洋
触媒討論会 (関西大学, 3月, 2001).

15) “プロピレンの二量化に高活性・高選択性を示すニッケル-ホスフィン系錯体触媒の開発”
野村琴広, 鈴鴨剛夫
近畿化学協会 触媒・表面化学部会 講演会 (大阪科学技術センタ-, 5月, 2001).

16) “Ligand Effect in Ethylene Homopolymerization and Ethylene/Styrene Copolymerization Catalyzed by Various Half-Metallocene Type Titanium Complexes – MAO Systems”
K. Nomura, Y. Imanishi
14th International Symposium on Olefin Metathesis (ISOM XIV, Massachusetts Institute of Technology, Cambridge MA, USA, 8月, 2001).

17) “Nonbridged Half-Metallocene Type Titanium(IV) Complexes Containing Aryloxo and Amide Ligand for Precise Olefin Polymerization”
K. Nomura
35th International Congress on Coordination Chemistry (ICCC35, Heidelberg, Germany, 7月, 2002).

18) “高性能遷移金属錯体触媒によるオレフィンの精密重合-最近の研究動向を中心に-”
野村琴広
第51回高分子討論会, (九州工業大学, 10月, 2002).

19) “Olefin Coordination Insertion and Metathesis Polymerization with Vanadium(V) Complex Catalysis”
K. Nomura
International Symposium on Biotechnology Metal Complexes and Catalysis (Haikou, China, 11月, 2002).

20) “遷移金属錯体触媒を用いるオレフィン重合における最近の進歩”
野村琴広
高分子学会平成14年度東海シンポジウム (名古屋国際会議場, 1月, 2003).

21) “オレフィンの精密重合を指向した反応場設計-ポストメタロセン型の遷移金属錯体触媒-”
野村琴広
触媒学会ファインケミカルズ合成触媒研究会シンポジウム「ものづくりのための触媒科学」(キャンパスプラザ京都, 6月, 2003).

22) “Olefin Coordination Polymerization by (Arylimido)vanadium(V) Complex – Cocatalyst Systems. – Remarkable Role of Aluminum Cocatalyst -“
K. Nomura, J. Yamada, A. Sagara, M. Fujiki, W. Wang
3rd International Workshop on Heterogeneous Ziegler-Natta Catalysts(北陸先端大, 10月, 2003).

23) “Nonbridged halef-metallocene type titanium complexes offering new possibilities for precise olefin polymerization”
K. Nomura
93rd National Meeting of the Korean Chemical Society (Seoul, 4月, 2004).

24) “超効率分子触媒の設計・創製 -いくつかの反応事例を中心に-”
野村琴広
第42回触媒研究懇談会 (大分, 7月, 2004).

25) “高性能遷移金属錯体触媒の分子設計-オレフィンの精密重合を例として-”
野村琴広
名古屋大学21世紀COE第2回有機化学若手研究会 (名古屋, 11月, 2004).

26) “オレフィン系高透明性機能ポリマーの精密重合手法の最近の動向-遷移金属触媒重合による環状オレフィン系モノマーの(共)重合-”
野村琴広
(株)技術情報協会セミナー「環状オレフィン系樹脂における重合手法と成型加工技術及び応用展開」 (東京, 5月, 2005).

27) “オレフィン精密共重合のための高性能触媒の分子設計-環状オレフィンコポリマーを例に-”
野村琴広
第96回触媒討論会 (熊本大学,9月, 2005).

28) “精密重合を指向した高性能バナジウム錯体触媒の設計・合成”
野村琴広
理研シンポジウム 第2回「有機金属化学研究の最前線」 (埼玉県和光市,11月, 2005).

29) “Olefin polymerization catalyzed by (arylimido)vanadium(V) complexes”
K. Nomura, J. Yamada, W. Wang
Asian Polyolefin Workshop 2005 (APO2005, 奈良市,12月, 2005).

30) “Synthesis and reaction chemistry with vanadium(V)-alkyl, alkylidene complexes containing arylimido ligands”
K. Nomura
231st ACS National Meeting, Special Symposium in Inorganic Division, ‘A Molecule Maker’s d-Orbital Delight’ (Atlanta, GA, USA,3月, 2006).

31) “Precise olefin copolymerization catalyzed by nonbridged half-titanocenes”
K. Nomura
The International Symposium on Polymer Chemistry (PC2006, Dalian, China, 6月, 2006).

32) “高機能ポリオレフィンの環境調和型の精密合成新プロセスの提案”
野村琴広, 長谷川喜一
環境資源工学会第116回例会  (京都, 6月, 2006).

33) “Design and Synthesis of Vanadium(V) Complexes Containing Arylimido Ligands as Catalysts for Efficient Olefin Coordination/metathesis Polymerization”
K. Nomura, W. Wang, T. Atsumi, M. Fujiki, J. Yamada
5th International Symposium on Chemistry and Biological Chemistry of Vanadium (232nd ACS National Meeting, San Francisco, USA, 9月, 2006).

34) “Design, synthesis of efficient early transition metal catalysts for precise olefin polymerization”
K. Nomura
Xiangshan Science Conferences of China 香山科学会議 (Beijing, China, 11月, 2006).

35) “Synthesis of titanatranes containing tetradentate trianionic donor ligands of the type, [(O-2,4-R2C6H2-6-CH2)2(OCHCH)]N3-, and their use in catalysis for ethylene polymerization”
Sudhakar P., K. Nomura
5th International Workshop on Heterogeneous Ziegler-Natta Catalysts (北陸先端科学技術大学院大学, 3月, 2007).

36) “オレフィンの精密重合を可能とする高性能遷移金属錯体触媒:配位重合やメタセシス重合による新しいオレフィン系高分子機能材料の創製”
野村琴広
石油学会石油化学部会 (石油学会, 3月, 2007).

37) “新規ポリマーの創製を指向した高性能ハーフチタノセン錯体触媒の設計・創製”
野村琴広
第2回次世代ポリオレフィン総合研究会 (東京大学, 8月, 2007).

38) “Design of nonbridged half-titanocenes for precise synthesis of new polyolefins”
K. Nomura, J. Liu, A. Takemoto
Asian Polyolefin Workshop 2007 (APO2007, Hangzhou, China,10月, 2007).

39) “Efficient introduction of reactive functionalities into polyolefins by ethylene copolymerizations using nonbridged half-titanocenes”
K. Nomura
International Workshop on Olefin Polymerization Kinetics, (Tokyo, 4月, 2008).

40) “オレフィンメタセシス反応を用いる有機高機能材料の精密合成:金属カルベン錯体の合成と反応性、触媒反応への利用”
野村琴広
有機化学研究会 (白鷺セミナー)  (大阪府立大学,  5月, 2008).

41) “高活性を発現する高性能チタン錯体触媒の配位子設計と新規ポリマーの創製”
野村琴広
第3回次世代型ポリオレフィン総合研究会 (東京, 7月, 2008).

42) “新しいオレフィン系ポリマーの創製を目指したポストメタロセン触媒の創製-高機能化ポリオレフィンのための触媒設計”
野村琴広
第102回触媒討論会 (名古屋大学,  9月, 2008).

43) “Efficient, precise synthesis of new polyolefins catalyzed by nonbridged half-titanocenes”
K. Nomura
102nd Korean Chemical Society National Meeting(Jeju, Korea, 10月, 2008).

44) “Design of efficient molecular catalysts for precise olefin polymerization”
K. Nomura
5th International Symposium on High-Tech Polymer Materials (HTPM-V, Beijing, China, 10月, 2008).

45) “Design of efficient transition metal complex catalysts for synthesis of new polymers by precise olefin polymerization”
K. Nomura
The International Congress for Innovation in Chemistry (PERCH-CIC Congress VI, Pattaya, Thai, 5月, 2009).  Plenary Lecture

46) “Synthesis and reaction chemistry of (imido)vanadium(V)-alkyl, -alkylidene complexes”
K. Nomura
8th International Symposium on Olefin Metathesis and Related Chemistry (ISOM XVIII, Leipzig, Germany, 8月, 2009).

47) “環境調和型の精密合成プロセスを可能とする高性能分子触媒の設計・創製”
野村琴広
近畿化学協会 第2回触媒表面化学研究発表会 (関西大学, 10月, 2009).

48) “Design of titanium complex catalyst for precise olefin polymerization”
K. Nomura
Asian Polyolefin Workshop 2009 (APO2009, Seoul, Korea, 10月, 2009).

49) “Precise olefin metathesis polymerization: Syntheses of end-functionalized “defect-free” conjugated polymers and star shape polymers”
K. Nomura
International Symposium on Catalysis and Fine Chemicals 2009 (C&FC2009, Seoul, Korea, 12月, 2009).

50) “Design of new titanium complex catalysts for precise olefin polymerization”
K. Nomura
Taiwan-Japan pre-symposium on Organometallic Chemistry (pre-symposium ICOMC, Taipei, Taiwan, 7月, 2010).

51) “Design of (imido)vanadium complex catalysts for olefin insertion/metathesis reactions: Notable ligand effect for ethylene oligomerization/polymerization”
K. Nomura
Sixth Tokyo Conference on Advanced Catalytic Science and Technology & Fifth Asia Pacific Congress on Catalysis (TOCAT5/APCAT5, 札幌, 7月, 2010).

52) “Precise metathesis polymerization: Efficient tools for synthesis of ‘end-functionalized’ star shape polymers, defect-free conjugated polymers”
K. Nomura
The Sixth International Symposium on Integrated Synthesis (ISIS-6, 神戸, 10月, 2010).

53) “精密メタセシス重合:ポリマーの精密集積化に有効な合成技術”
野村琴広
第79回千葉地域活動高分子研究交流講演会, (東京理科大学, 11月, 2010).

54) “高効率高変換材料の新しい精密合成新手法:メタセシス重合によるDefect-Free共役ポリマーの精密合成と官能基化”
野村琴広
第40回石油・石油化学討論会 (神戸, 11月, 2010).

55) “Design of efficient titanium complex catalysts for precise olefin polymerization”
K. Nomura
2010 環太平洋国際化学会議 (Pacifichem 2010, Honolulu, Hawaii, 12月, 2010).

56)“精密重合触媒:分子を緻密につなぐ高性能分子触媒”
野村琴広
文部科学省科学研究費 特定領域研究「協奏機能触媒」講演会(東京工業大学,1月, 2011).

57) “Design of vanadium complex catalysts for efficient olefin coordination insertion/metathesis polymerization”
K. Nomura
The International Congress for Innovation in Chemistry (PERCH-CIC Congress VII, Pattaya, Thailand, 5月, 2011).

58) “Design of efficient molecular catalysts for olefin coordination insertion/metathesis polymerization”
K. Nomura
The 14th Asian Chemical Congress (Bangkok, Thailand, 9月, 2011).

59) “New efficient catalysts for fine polyolefin synthesis: New catalysts and methodologies”
K. Nomura
International Symposium on Catalysis and Fine Chemicals 2011 (C&FC2011, 奈良, 12月, 2011).

60) “(Imido)vanadium complexes as efficient catalyst precursors for olefin polymerization/oligomerization”
K. Nomura, A. Igarashi, W. Huang, W.-H. Sun
8th International Colloquium on Heterogeneous Ziegler-Natta Catalysts (金沢, 3月, 2012).

61) “Precise Metathesis Polymerization for Integration of Functionality:Defect-Free Conjugated Polymers and Star Shaped Polymers”
K. Nomura
7th International Symposium on High-Tech Polymer Materials (HTPM-VII, Shaanxi, China, 6月, 2012).

62)  “新しいオレフィン系ポリマーの創製を可能とする高性能チタン錯体触媒”
野村琴広
新化学技術推進協会(JACI) (東京, 6月, 2012).

64) “Efficient titanium and vanadium complex catalysts for precise olefin polymerization”
K. Nomura
Chemelot International Polyolefins Symposium (CIPS2012), (Maastricht, The Netherland, 10月, 2012).

65) “精密オレフィンメタセシス重合:高分子触媒、精密集積化材料”
野村琴広
有機合成化学協会関東支部ミニシンポジウム (群馬, 10月, 2012).

66) “Synthesis and Reaction Chemistry of (Imido)vanadium(Ⅴ)-Alkylidene Complexes: Highly Active Olefin Metathesis Catalysts”
K. Nomura
17th Malaysian Chemical Congress (17MCC) (Kuala Lumpur, Malaysia, 10月, 2012).

67) “新規ポリオレフィンの創製を指向した新触媒・新手法”
野村琴広
触媒学会重合触媒設計研究会セミナー―付加重合に関する最近の話題- (東京, 1月, 2013).

68) “Design of efficient molecular catalysts for olefin polymerization/ oligomerization”
K. Nomura
Pure and Applied Chemistry International Conference (PACCON2013) (Chon Buri, Thailand, 1月, 2013).

69) “Synthesis and reaction chemistry of vanadium(V)-alkyl, alkylidene complexes: Olefin metathesis catalysts and 1,2-C-H bond activation of aromatic compounds”
K. Nomura
245th ACS National Meeting & Exposition (New Orleans, U.S.A., 4月, 2013).

70) “Modified half-titanocenes: Effective catalyst precursors for synthesis of fine polyolefins”
K. Nomura
Asian Polyolefin Workshop 2013 (APO2013) (Beijing, China, 10月, 2013).

71) “Synthesis and reaction chemistry of (imido)vanadium(V)-alkyl, alkylidene complexes: Olefin metathesis catalysts and 1,2-C-H bond activation”
K. Nomura
4th Asian Conference on Coordination Chemistry (ACCC4) (Jeju, Korea, 11月, 2013).

72) “(Imido)vanadium Complex Catalysts for Efficient Olefin Insertion/Metathesis Reactions”
K. Nomura
International Symosium on Catalysis and Fine Chemicals 2013 (C&FC2013), (Beijing, China, 12月, 2013).

73) “Precise olefin polymerization by molecular catalysts for advanced functional materials”
K. Nomura
The 5th Research Symposium on Petrochemical and Materials Technology and The 20th PPC Symposium on Petroleum, Petrochemicals, and Polymers (Bangkok, Thailand, 4月, 2014).  Keynote Lecture

74) “Half-titanoce catalysts for synthesis of new fine polyolefins”
K. Nomura
The Royal Golden Jubilee Ph.D. Congress XIV (Pattaya, Thailand, 5月, 2014).

75)“Precise synthesis of end-functionalized liner/star conjugated (block) polymers for integration of functionality by olefin netathesis”
K. Nomura
8th International Symposium on High-Tech Polymer Materials (HTPM-VIII, Beijing, China, 7月, 2014).

76)“高性能バナジウム錯体触媒の設計・合成”
野村琴広
第47回有機金属若手の会 夏の学校 (広島, 9月, 2014).

77) “(Imido)vanadium(V) complex catalysts for olefin polymerization/oligomerization”
K. Nomura
The 6th International Forum on Homogeneous Catalysis by SIOC (Shanghai, China, 10月, 2014).

78) “Precise synthesis of fine polyolefins by ethylene copolymerization: Introduction of reactive functionality”
K. Nomura
International Workshop on Catalytic Olefin Polymerization & High Performance Polyolefins (Shanghai, China, 10月, 2014).

79) “Precise Synthesis of Fine Polyolefins by Ethylene Copolymerization: Introduction of Reactive Functionality”
K. Nomura
Malaysian International Chemical Congress (18MICC, Kuala Lumpur, Malaysia, 11月, 2014). Keynote Lecture

80) “(Imido)vanadium(V) Complex Catalysts for Olefin Polymerization/Oligomerization”
K. Nomura
Vietnam Malaysian International Chemical Congress (Hanoi, Vietnam, 11月, 2014). Keynote Lecture

81) “Precise olefin polymerization by molecular catalysts for functional polymers”
K. Nomura
First International Conference on Polymer Science and Engineering (PSE-2014) (Beijing, China, 11月, 2014). Keynote Lecture

82)“ファインケミカルズ関連触媒の現状と展望 ”
野村琴広
第 50 回触媒フォーラム(50th記念)「これからの社会に求められる触媒技術、現状と今後の展望」(横須賀, 1月24日, 2015).

83) “(Imido)vanadium(V)-alkylidene complexes as olefin metathesis catalysts”
K. Nomura
21th International Symposium on Olefin Metathesis and Related Chemistry (ISOM XXI), (Graz, Austria, 7月, 2015).

84) “環状オレフィンの開環メタセシス重合における立体特異性の制御:高性能触媒の設計・創製”
野村琴広
第10回次世代ポリオレフィン総合研究会(秋葉原, 8月, 2015).

85) “(Imido)vanadium(V) complex catalysts for olefin insertion/metathesis polymerization”
K. Nomura
250th ACS National Meeting (Boston, U.S.A., 8月, 2015).

86) “均一系錯体触媒による効率合成反応:基礎事項と最近のトピックス紹介”
野村琴広
第9回触媒道場(大阪, 9月, 2015).

87) “Synthesis of cyclic olefin (co)polymers by olefin insertion/metathesis polymerization”
K. Nomura
ACS Advances in Polyolefins 2015 (Santa Rosa, CA, USA, 9月, 2015).

88) “Design of efficient catalysts for synthesis of cyclic olefin (co)polymers by olefin insertion/metathesis polymerization”
K. Nomura
World Polyolefin Congress 2015 (WPOC2015, Tokyo, 11月, 2015).

89) “Design of efficient vanadium(V) complex catalysts for olefin polymerization/oligomerization”
K. Nomura
Asian Polyolefin Workshop 2015 (APO2015, Tokyo, 11月, 2015).

90) “Design of efficient molecular catalysis for synthesis of advanced polymers by precise polymerization”
K. Nomura
8th AUN/SEED-Net Regional Conference on Chemical Engineering, Chemical Innovation for a Progress in ASEAN Industry and Society (Hanoi, Vietnam, 11月, 2015).

91) “Synthesis and reaction chemistry of (imido)vanadium(V)-alkyl, alkylidene complexes”
K. Nomura
Pacifichem 2015 (Hawaii, U.S.A., 12月, 2015).

92) “Precise synthesis of fine polyolefins by ethylene copolymerization with sterically encumbered monomers, cyclic olefins, and with comonomers containing reactive functionality”
K. Nomura
Pacifichem 2015 (Hawaii, U.S.A., 12月, 2015).

93) “Olefin Metathesis: Design of efficient molecular catalysts and synthesis of advanced conjugated materials”
K. Nomura
Pure and Applied Chemistry International Conference 2016 (PACCON2016, Bangkok, Thailand, Feb., 2016).

94) “Precise olefin metathesis: Effective methods for synthesis of new conjugated materials by integration of functionality”
K. Nomura
PERCH – CIC Congress IX (Pattaya, Thailand, 6月, 2016).

96) “Precise synthesis of end-functionalized liner/star conjugated (block) polymers for integration of functionality by olefin metathesis”
K. Nomura
9th International Symposium on High-tech Polymer Materials (HTPM-9, Zhengzhou, China, Jul., 2016). Plenary Lecture

97) “高性能オレフィン重合触媒の設計・創製: 新触媒・新規ポリマー”
野村琴広
高分子学会・千葉地域高分子交流講演会

98) “高性能分子触媒による新しいオレフィン系ポリマーの創製”
野村琴広
16-1高分子学会講演会:精密重合の課題と挑戦 -超精密化から工業化まで- (東京工業大学, 7月, 2016).

99) “Design and synthesis of (imido)vanadium(V)-alkylidene complexes as efficient catalysts for ring-opening metathesis polymerization (ROMP) of cyclic olefins”
K. Nomura
International Symposium on Pure and Applied Chemistry 2016 (ISPAC2016, Kuching, Sarawak, Malaysia, 8月, 2016).

100) “(Imido)vanadium complexes containing anionic ancillary donor ligands as efficient catalysts for olefin polymerization/dimerization”
K. Nomura
10th International Vanadium Symposium: Chemistry, Biological Chemistry, & Toxicology (V10, 台北, 11月, 2016).

101) “Precise synthesis of end-functionalized conjugated (block) polymers for integration of functionality by olefin metathesis”
K. Nomura
International Symposium on Catalysis and Fine Chemicals 2016 (C&FC2016, 台北, 11月, 2016).

102) “Design and synthesis of highly active olefin metathesis vanadium-alkylidene catalysts”
K. Nomura
Pure and Applied Chemistry International Conference 2017 (PACCON2017, バンコク, タイ, 2月, 2017).

103) “(Imido)vanadium(V)-alkylidene complexes: Highly active,thermally robust, cis specific ring-opening metathesis polymerization catalysts”
K. Nomura
3rd International Conference on Molecular and Functional Catalysis (ICMFC-3) (シンガポール, 2月, 2017). Keynote Lecture

104) “ポリオレフィンの精密合成のための触媒設計”
野村琴広
2017年度高分子学会Webinar講演 (東京, 10月, 2017).

105) “XAS Analysis for exploring the oxidation state of the catalytically active species in reaction with ethylene by (imido)vanadium complex catalysts”
K. Nomura
Asian Polyolefin Workshop 2017 (APO2017) (天津, 中国, 10月, 2017). Keynote Lecture

106) “Design of efficient molecular catalysts for development of polymeric functional materials”
K. Nomura
Solvay Colloquium, Solvay Institute (Universite libre de Bruxelles, Brussels, Belgium, 11月, 2017).

107) “Design and synthesis of highly active olefin metathesis vanadium-alkylidene catalysts”
K. Nomura
Pure and Applied Chemistry International Conference 2018 (PACCON2018, バンコク, タイ, 2月, 2018).

108) “高性能分子触媒が先導する新しいオレフィン系高分子機能材料の研究開発”
野村琴広
日本化学会第98春季年会:アドバンスト・テクノロジー・プログラム(ATP)-触媒元素戦略で拓く未来社会-(日大理工, 3月, 2018).

109) “(Imido)vanadium-alkylidene complexes as new efficient catalysts for ring-opening metathesis polymerization”
K. Nomura
The 8th International Symposium on Polymer Chemistry (PC2018, 長春, 中国, 6月, 2018).

110) “Synthesis of functional polyolefins by designed molecular catalysis: Green sustainable approach”
K. Nomura
The 7th CAS-TWAS Symposium on Green Technology (GT2018, 北京, 中国, 7月, 2018).

111) “高性能オレフィン重合触媒の設計・創製: 配位重合とメタセシス重合”
野村琴広
高分子同友会 (東京, 7月, 2018).

112) “Effect of chiral alkyl side chain in all trans poly(9,9-dialkyl-fluorene-2,7-vinySene)s toward aggregation induced circular dichroism (AICD) and CD/CPL spectra in solution, aggregates, and in thin films”
K. Nomura
10th International Symposium on High-Tech Polymer Materials (HTPM-X) (北京, 10月, 2018).

113) “(Imido)vanadium(V) and niobium(V) complexes as highly active catalysts for ethylene dimerization/polymerization”
K. Nomura
International Symposium on Catalysis and Fine Chemicals 2018 (C&FC2018, バンコク, 12月, 2018).

114) “Precise olefin metathesis: Efficient methods for synthesis of advanced conjugated polymers, conversion of bio renewables”
K. Nomura
International Conference on Advanced and Applied Petroleum, Petrochemicals, Polymers 2018 (バンコク, 12月, 2018). Keynote Lecture

115) “Vanadium- and niobium-alkylidene complexes catalysts for olefin metathesis polymerization”
K. Nomura
102nd Canadian Chemistry Conference and Exhibition (ケベック, カナダ, 6月, 2019).

116) “Olefin insertion copolymerization and ring opening metathesis polymerization with cyclic olefins (tentative)”
K. Nomura
2019 US-Japan Polymer Symposium: -Macromolecules: Challenges and Opportunities for the 21 st Century- (スタンフォード, カリフォルニア, 米国, 6月, 2019).

117) “精密重合と定量的な末端官能基化を基盤とする新しい集積型光機能材料の創製”
野村琴広
高分子学会関東支部 第60回茨城地区活動講演会 (つくば, 6月, 2019).

118) “Half-titanocene catalysts for synthesis of new polyolefins by ethylene copolymerizations, and solution XAS for analysis of active species”
K. Nomura
5th Blue Sky Conference on Catalytic Olefin Polymerization (ナポリ, ソレント, イタリア, 6月, 2019).

119) “Vanadium-, niobium-alkylidene catalysts for olefin metathesis polymerisation”
K. Nomura
23rd International Symposium on Olefin Metathesis and Related Chemistry (ISOM23, バルセロナ, スペイン, 6月, 2019). Keynote Lecture

120) “Olefin metathesis: Efficient methods for precise synthesis of new advanced conjugated polymers by exclusive end-modification”
K. Nomura
7th international symposium of Institute for Catalysis in Hokkaido University (札幌, 北海道, 7月, 2019). Keynote Lecture

121) “(Imido)vanadium and niobium complexes as efficient catalysts for ethylene dimerization/polymerization and ring-opening metathesis polymerization of cyclic olefins”
K. Nomura
The 8th Asia-Pacific Congress on Catalysis (APCAT8, バンコク, タイ, 8月, 2019).

122) “オレフィンの精密重合・二量化に有効な高性能チタンおよびバナジウム分子触媒の設計”
野村琴広
第124回触媒討論会(長崎大学, 9月, 2019).

123) “Effect of anionic donor ligands and Al cocatalyst in ethylene (co)polymerization using (arylimido)vanadium complex catalysts”
K. Nomura, M. Tamm
Asian Polyolefin Workshop 2019 (APO2019, 広島, 12月, 2019).

124) “Olefin metathesis polymerization by vanadium-, niobium-alkylidene catalysts”
K. Nomura
The 16th Pacific Polymer Conference (PPC16, シンガポール, 12月, 2019).

125) “Metal catalyzed olefin polymerization: Efficient catalysts for synthesis of petroleum based polymers, and bio based polymers”
K. Nomura
Pure and Applied Chemistry International Conference 2020 (PACCON2020, バンコク, タイ, 2月, 2020).

126) “Synthesis of new bio-based functional polymers by efficient molecular catalysis: A survey of recent research”
K. Nomura
Online seminar series in Bioenergy and Catalysis, Thammasat University ( On-line seminar, 8月, 2020).

127) “Designed molecular catalysis for precise synthesis of advanced polymers”
K. Nomura
Vebleo Webinar on Science, Engineering and Technology (On-line, 5月, 2021) Keynote講演

128) “Recent development in synthesis of bio-based polymers by metal catalyzed coordination/metathesis polymerization”
K. Nomura
Catalysts Asia-Pacific Academic Forum (Online, 7月, 2021) Keynote講演

129) “Half-titanocenes containing anionic ancillary donor ligands: Promising catalysts for synthesis of new polyolefins”
K. Nomura
The 2nd International Electronic Conference on Catalysis Sciences—A Celebration of Catalysts 10th Anniversary (Online, 10月, 2021) Keynote講演

130) “(Imido)vanadium Complexes as Catalysts for Ring-Opening Metathesis Polymerization and Ethylene Dimerization/Polymerization”
K. Nomura
12th International Vanadium Symposium (Cyprus, 11月, 2021) On line, Keynote講演

131) “Synthesis of new polyolefins by nonbridged half-titanocene catalysts”
野村琴広
Asian Polyolefin Workshop 2021 (APO2021, バンコク, On Line, 12月, 2021) Keynote講演

132) “Synthesis of bio-based aliphatic polyesters by olefin metathesis polymerizations and the chemical recycling”
Kotohiro Nomura
Pure and Applied Chemistry International Conference 2022 (PACCON 2022, Bangkok, June, 2022) 招待講演

133) “(Imido)vanadium complex catalysts for efficient olefin metathesis and insertion reactions”
Kotohiro Nomura
International Symposium on Homogeneous Catalysis (ISHC, Lisbon, 7月, 2022) Plenary講演

134) “Synthesis of bio-based polymers from plant oils for better chemical recycling”
K. Nomura
12th Edition of Global Conference on Catalysis, Chemical Engineering & Technology (On Line, 9月, 2022) Keynote講演

135) “Synthesis of bio-based polymers from plant oils for better chemical recycling”
K. Nomura
The 26th International Electronic Conference on Synthetic Organic Chemistry (ECSOC26, Online, 10月, 2022) Keynote講演

136) “オレフィンメタセシス重合を利用したバイオベースポリマーの合成・特性解析とケミカルリサイクル”
野村琴広
第6回 精密ネットワークポリマー研究会・超分子研究会合同講座(東京, 11月, 2022) 招待講演

137) “Synthesis of bio-based polymers from ethylene and plant oils by catalysis”
Kotohiro Nomura
7th Universal Scientific Education and Research Network (USERN) Congress (Online, 11月,2022)

138) “Design of Vanadium Complex Catalysts for Precise Olefin Polymerization”
Kotohiro Nomura
Materials Innovation Lecture Series (Industrial Technology Research Institute (ITRI), Taiwan, Online, 11月,2022)

139) “Synthesis and chemical recycling of bio-based polymers from plant oil”
K. Nomura
11th The International Symposium on Feedstock Recycling of Polymeric Materials (ISFR), (Pattaya, November, 2022) Keynote講演

140) “Synthesis and chemical recycling of bio-based polymers from plant oil”
K. Nomura
Symposium on Degradable Polymers and Film Composites 2022, (Quezon City, Philippines, December, 2022) Keynote講演

141) “High oxidation state arylimido -alkylidene complexes with vanadium and niobium complexes as catalysts for olefin metathesis polymerization”
Kotohiro Nomura
7th International Conference on Catalysis and Chemical Engineering (Las Vegas, On Line, February, 2023)
Keynote講演

 

 

国際会議での口頭発表  (Selected Contributed Papers at International Conference)
1) “Olefin Polymerization Catalyzed by Non-Bridged Half-Metallocene Type Titanium(IV) Complexes – Cocatalyst System”
K. Nomura, T. Komatsu, K. Oya, Y. Imanishi
IUPAC International Symposium on Ionic Polymerization, (京都国際会議場, 7月, 1999).
2) “Copolymerization of Ethylene with a-Olefin by Half-Metallocene Type and Chelate Bis(amide) Titanium(IV) Complexes – Cocatalyst Systems”
K. Nomura, K. Oya, T. Komatsu, Y. Imanishi
7th SPSJ International Polymer Conference (IPC99), (横浜, 10月, 1999).
3) “Precise Ring-Opening Metathesis Polymerization of Norbornene Macromonomers by Mo(CHCMe2Ph)(NAr)(OR)2 as the Initiator”
K. Nomura, S. Takahashi, I. Sakai, Y. Imanishi
IUPAC World Congress on Macromolecular Chemistry (IUPAC Macro2000), (Warszawa, Poland, 7月, 2000).
4) “Olefin Addition/Metathesis Polymerization by (Arylimido)(aryloxy)vanadium(V) Complexes – Cocatalyst Systems”
K. Nomura, A. Sagara, Y. Imanishi
The 3rd International Symposium on Chemistry and Biological Chemistry of Vanadium, (大阪大学, 11月, 2001).
5) “Ethylene Homopolymerization and Ethylene/Styrene Copolymerization Catalyzed by Various Half-Metallocene Type Titanium(IV) Complexes”
K. Nomura, K. Fujii, H. Okumura,
4th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT4), (東京, 7月, 2002).
6) “Precise Ethylene Copolymerizations Catalyzed by Half-Titanocenes Containing Anionic Ancillary Donor Ligands”
K. Nomura, K. Itagaki, H. Zhang
16th International Symposium on Olefin Metathesis and Related Chemistry (ISOM16), (Poznań, Poland, 7月, 2005).
7) “Design, synthesis of (arylimido)vanadium(V) complex catalysts for precise olefin polymerization”
K. Nomura, J. Yamada, W. Wang
5th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT5), O-B18, (東京, 7月, 2006).
8) “Synthesis of half-titanocenes attached to the polymer chain end: New approach for preparation of single-site polymer supported complex catalysts”
K. Nomura, B. Kitiyanan, Y. Watanabe
International Symposium on Catalysis and Fine Chemicals2007 (C&FC2007), (Singapore,12月, 2007).
9) “Synthesis of (imido)vanadium(V)-alkyl, alkylidene complexes and some reactions: Highly active olefin metathesis catalysts”
K. Nomura, K. Suzuki, Y. Matsumoto
8th International Vanadium Symposium Chemistry, Biological Chemistry, and Toxicology (V8) (Washington DC, USA, 8月, 2012).
10) “Precise synthesis of defect-free conjugated polymers/oligomers with well-defined end groups by metathesis polymerisation/reactions”
K. Nomura
10th IUPAC International Conference on Advanced Polymers via Macromolecular Engineering (APME2013) (Durham Univ., UK, 8月, 2013).
11) “Highly efficient ethylene dimerization by (imido)vanadium complex catalysts: Effect of ligand and cocatalyst”
K. Nomura, S. Zhang, A. Igarashi
The Sixth Asia-Pacific Congress on Catalysis (APCAT-6) (Taipei, Taiwan, 10月, 2013).
12) “Exploring oxidation states of the catalytically active species in ethylene polymerization/dimerization using (Imido)vanadium(V) complex catalysts”
K. Nomura, T. Mitsudome, A. Igarashi, M. Oshima, G. Nagai, S. Yamazoe
The 8th Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT8) (横浜, 8月, 2018).
13) “(Imido)vanadium(V)-alkylidene complexes as new thermally robust, efficient catalysts for ring-opening metathesis polymerization of cyclic olefins”
K. Nomura, S. Chaimongkolkunasin, X. Hou
14th International Kyoto Conference on New Aspects of Organic Chemistry (IKCOC-14) (京都, 11月, 2018).
14) “Precise synthesis of end-functionalized conjugated polymers by combined ADMET polymerization with wittig-type coupling”
K. Nomura, M. Kunisawa
The 12th SPSJ International Polymer Conference (IPC2018) (広島, 12月, 2018).

 

海外の大学・企業・研究機関での招待講演
University of Milano, Italy [9/’91].
SamSung R&D Center of Chemical Technology (Daejon, Korea) [5/’99].
Korea Advanced Institute of Science & Technology (Daejon, Korea) [5/’99].
University of Mainz (Mainz, Germany) [7/’02].
University of Liege (Liege, Belgium) [7/’02].
University of Groningen (Groningen, Netherlands) [7/’02].
Chinese Academy of Sciences, Institute of Chemistry (Beijing, China) [11/’02].
Chinese Academy of Sciences, Shanghai Institute of Organic Chemistry (Shanghai, China) [11/’02].
Korea University (Chungnam, Korea) [12/’03]
Korea Advanced Institute of Science & Technology (Daejon, Korea) [12/’03].
LG Chem, Ltd. (Daejon, Korea) [12/’03].
Zhejiang University (Hangzhou, China) [12/’04].
Chinese Academy of Sciences, Shanghai Institute of Organic Chemistry (Shanghai, China) [12/’04].
East China University of Science and Technology (Shanghai, China) [12/’04].
Chinese Academy of Sciences, Institute of Chemistry (Beijing, China) [2/’05].
Peking Univerisity (Beijing, China) [2/’05].
Beijing Institute of Chemical Engineering, SinoPec (Beijing, China) [3/’05].
Beijing Institute of Petrochemical Technology (Beijing, China) [2/’05].
Hanbat National University (Daejeon, Korea) [5/’05].
Seoul National University (Seoul, Korea) [5/’05].
University of Groningen (Groningen, Netherlands) [8/’05]
The University of Edinburgh (Edinburgh, UK) [8/’05]
Beijing Institute of Chemical Engineering, SinoPec (Beijing, China) [11/’06].
Technion – Israel Institute of Technology- (Haifa, Israel) [11/’06]
Technion – Israel Institute of Technology- (Haifa, Israel) [11/’06]
Weizmann Institute of Science (Rehovot, Israel) [11/’06]
Tel Aviv University (Tel Aviv, Israel) [12/’06]
Hebrew University of Jerusalem (Jerusalem, Israel) [12/’06]
Bar-Ilan University (Ramat-Gan, Israel) [1/’07]
Chinese Academy of Sciences, Changchun Institute of Applied Chemistry (Changchun, China) [6/’07]
Jilin University (Changchun, China) [6/’07]
Chinese Academy of Sciences, Institute of Chemistry (Beijing, China) [7/’07].
Thai Polyethylene Co., Ltd. (Rayong, Thailand) [11/’07].
Chulalongkorn University (Bangkok, Thailand) [11/’07].
Kolon Industries, Inc. (Incheon, Korea) [3/’08]
Ajou University (Suwon, Korea) [3/’08]
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences (Lanzhou, China) [9/’08]
Northwestern Normal University (Lanzhou, China) [9/’08]
Center of Research and Development in Lanzhou, Petro China (Lanzhou, China) [9/’08]
Lanzhou University (Lanzhou, China) [9/’08]
Institute of Chemistry, Chinese Academy of Sciences (Beijing, China) [9/’08].
LG Chem, Ltd. (Daejon, Korea) [3/’09].
Korea University (Chungnam, Korea) [3/’09].
Chinese Academy of Sciences, Institute of Chemistry (Beijing, China) [5/’10].
Beijing Institute of Chemical Engineering, SinoPec (Beijing, China) [5/’10].
Tsinghua University (Beijing, China) [10/’10]
National Taiwan Normal University (Taipei, Taiwan) [3/’11]
National Central University (Taipei, Taiwan) [3/’11]
Industrial Technology and Research Institute (ITRI) (Taipei, Taiwan) [3/’11]
National Tsing-Hua University (Taipei, Taiwan) [3/’11]
Institute of Chemistry, Academia Sinica (Taipei, Taiwan) [3/’11]
National Taiwan University (Taipei, Taiwan) [3/’11]
Changchun Institute of Applied Chemistry, Chinese Academy of Sciences (Changchun, China) [7/’11]
Inner Mongolia University (Hohhot, China) [7/’11]
Institute of Chemistry, Chinese Academy of Sciences (Beijing, China) [8/’11]
Beijing University of Chemical Technology (Beijing, China) [8/’11]
Chulalongkorn University (Bangkok, Thailand) [9/’11]
Institute of Chemistry, Chinese Academy of Sciences (Beijing, China) [10/’11]
Beijing University of Chemical Technology (Beijing, China) [10/’11]
Renmin University of China (Beijing, China) [10/’11]
Mahidol University (Bangkok, Thailand) [12/’11]
Ramkhamhaeng University (Bangkok, Thailand) [12/’11]
Chulalongkorn University (Bangkok, Thailand) [12/’11]
Chulalongkorn University (Bangkok, Thailand) [5/’12]
Hanoi University of Science and Technology (Hanoi, Vietnam) [5/’12]
Northwest University (Shaanxi, China) [6/’12]
Mahidol Univeristy (Bangkok, Thailand) [11/’12]
Chulalongkorn Univeristy (Bangkok, Thailand) [11/’12]
Renmin University of China (Beijing, China) [12/’12]
Beijing Institute of Chemical Engineering, SinoPec (Beijing, China) [12/’12]
Institute of Chemistry, Chinese Academy of Sciences (Beijing, China) [5/’13]
Institute of Inorganic and Analytical Chemistry, Technical University of Braunschweig (Braunschweig, Germany) [8/’13]
Chulalongkorn University (Bangkok, Thailand) [9/’13]
University of Malaya (Kuala Lumpur, Malaysia) [11/’13]
Universiti Kebangsaan Malaysia (UKM) (Bangi, Malaysia) [11/’13]
Hanoi University of Science and Technology (Hanoi, Vietnam) [11/’13]
Chulalongkorn Univeristy (Bangkok, Thailand) [12/’13]
Mahidol Univeristy (Bangkok, Thailand) [12/’13]
Thammasat University (Bangkok, Thailand) [9/’14].
Renmin University of China (Beijing, China) [12/’14].
Mahidol Univeristy (Bangkok, Thailand) [2/’15]
Thammasat University (Bangkok, Thailand) [8/’15].
Renmin University of China (Beijing, China) [10/’15].
Tsinghua University (Beijing, China) [10/’15]
Mahidol Univeristy (Bangkok, Thailand) [2/’16]
Chulalongkorn University (Bangkok, Thailand) [5/’16].
University of Science and Technology of China (Hefei, China) [8/’16].
Donghua University (Shanghai, China) [8/’16].
Shanghai Institute of Organic Chemistry (SIOC), Chinese Academy of Sciences (Shanghai, China) [8/’16].
East China University of Science and Technology (Shanghai, China) [8/’16]
National Taiwan University of Science and Technology (Taipei, Taiwan) [11/’16]
Inner Mongolia University (Hohhot, China) [9/’17]
Institute of Process Engineering, CAS (Beijing, China) [9/’17]
Beijing Institute of Technology (Beijing, China) [9/’17]
Beijing Institute of Fashion Technology (Beijing, China) [9/’17]
Universite Libre de Bruxelles (Brussel, Belgium) [11/’17] Solvay Colloquium
University of Ghent (Ghent, Belgium) [11/’17]
University of Mons (Mons, Belgium) [11/’17]
University of Liege (Liege, Belgium) [11/’17]
University of Lille (Lille, France) [12/’17]
Beijing University of Chemical Technology (Beijing, China) [12/’17]
Hefei Institute of Technology (Hefei, China) [12/’17]
University of Science and Technology of China (Hefei, China) [12/’17]
Thammasat University (Bangkok, Thailand) [9/’18]
University of Stuttgart (Stuttgart, Germany) [10/’18]
Technical University of Braunschweig (Braunschweig, Germany) [11/’18]
Universiti Kebangsaan Malaysia (UKM) (Kuala Lumpur, Malaysia) [12/’19]
Mahidol University (Bangkok, Thailand) [12/’19]
Universiti Teknologi MARA (UiTM)[5/’22]
Universiti Teknologi Malaysia (UTM, On line) [11/’22]
Vidyasirimedhi Institute of Science and Technology (VISTEC) (Rayong, Thailand) [11/’22]
Thammasat University (Pattaya, Thailand) [11/’22]
University of Perugia (Perugia, Italy) [3/’23]
CNR – Istituto di Scienze e Tecnologie Chimiche – SCITEC “G. Natta” (Milan, Italy) [3/’23]