中部大学

中部大学

教員情報

藤田 照典 FUJITA Terunori

プロフィール

職名 特任教授
所属 先端研究センター
大学院 経営情報学研究科 経営学専攻
最終学歴 ルイ・パスツール大学ストラスブール大学院博士課程自然科学専攻修了
学位 PhD(ルイ・パスツール大学ストラスブール、フランス)
専門分野 触媒化学、技術経営
研究テーマ オレフィン多量化反応、オレフィン系高分子材料、研究開発マネジメント
公開連絡先 メールアドレス:tfujitat@isc.chubu.ac.jp

著書および訳書

「科学技術」

二酸化炭素利活用技術~CO2削減に向けた最新研究~(共著), (株)情報機構, 2022年

JST-CRDS 「研究開発の俯瞰報告書」 ナノテクノロジー・材料分野 2021年(共著), 科学技術振興機構, 2021年

基礎高分子科学 第2版(共著), (株)東京化学同人, 2020年

触媒の劣化対策, 長寿命化(共著), (株)技術情報協会, 2020年

高機能性金属錯体が拓く触媒科学(共著), (株)化学同人, 2020年

JST-CRDS 「研究開発の俯瞰報告書」 環境・エネルギー分野 2019年(共著), 科学技術振興機構, 2019年

JST-CRDS 「研究開発の俯瞰報告書」 ナノテクノロジー・材料分野 2019年(共著), 科学技術振興機構, 2019年

触媒年鑑 「触媒技術の動向と展望2018」(共著), 触媒学会, 2018年

新版 石油化学プロセス[石油学会編](共著), (株)講談社サイエンティフィク, 2018年

わが国の工業触媒の歴史 総説と記録―20世紀からの伝言(共著), 触媒学会, 2018年

触媒の設計・反応制御事例集(共著), (株)技術情報協会, 2013年

触媒年鑑 「触媒技術の動向と展望2012」(共著), 触媒学会, 2012年

PLASTICS AGE ENCYCLOPEDIA〈進歩編〉2012(共著), (株)プラスチックス・エージ, 2011年

触媒年鑑 「触媒技術の動向と展望2008」(共著), 触媒学会, 2008年

第2版 石油辞典[石油学会編](共著), 丸善(株), 2005年

触媒年鑑 「触媒技術の動向と展望2003」, 触媒学会, 2003年

触媒年鑑 「触媒技術の動向と展望2001」(共著), 触媒学会, 2001年

欧文

Organic Chemistry - Breakthroughs and Perspectives (collective writing), Wiley-VCH, 2012.

Annual Survey of Catalytic Science and Technologies (collective writing(, The Catalysis Society of Japan, 2012.

Olefin Upgrading Catalysis by Nitrogen-based Metal Complexes II (collective writing), Springer, 2011.

McGraw-Hill Yearbook of Science & Technology 2009 (collective writing), McGraw-Hill, 2009.

Metal Catalysts in Olefin Polymerization (collective writing), Springer, 2009.

Transition Metal Compounds in Organic Synthesis II(collective writing), Elsevier, 2007. 

Stereoselective Polymerization with Single-Site Catalysts (collective writing), Taylor & Francis CRC Press, 2007.

Progress in olefin polymerization catalysts and polyolefin materials (collective writing), Elsevier, 2006.

Focus on Catalysis Research 2006 (collective writing), Nova Science Publishers, 2006.

Beyond Metallocenes(collective writing), ACS Symposium Series, Volume 857, American Chemical Society, 2003.

Current Trends in Polymer Science 2001 (collective writing), Research Trends, 2001.

Recent Research Developments in Polymer Science 2001 (collective writing), Transworld Research Network, 2001.

「研究開発マネジメント」

研究開発部門と他部門の壁の壊し方, 協力体制の築き方(共著), (株)技術情報協会, 2022年

SDGsの経営・事業戦略への導入と研究開発テーマの発掘, 進め方(共著), (株)技術情報協会, 2022年

“未来予測”による研究開発テーマ創出の仕方(共著), (株)技術情報協会, 2021年

研究開発の“見える化”によるR&Dテーマ評価, 進捗管理と進め方(共著), (株)技術情報協会, 2021年

研究開発テーマの評価と中止/撤退判断の仕方(共著), (株)技術情報協会, 2021年

研究開発者のモチベーションの高め方と実践事例(共著), (株)技術情報協会, 2020年

“後発で勝つ”ための研究開発・知財戦略の立て方, 進め方(共著), (株)技術情報協会, 2020年

研究開発テーマの事業性評価と資源配分の決め方(共著), (株)技術情報協会, 2019年

コア技術を活用した新規事業テーマの発掘, 進め方(共著), (株)技術情報協会, 2018年

企業研究者たちの感動の瞬間(共著), (株)化学同人, 2017年

研究開発体制の再編とイノベーションを生む研究所の作り方(共著), (株)技術情報協会, 2017年

新規R&Dテーマを設定のための経営層への効果的な説明・説得の仕方(共著), (株)技術情報協会, 2017年

「未来予測」による研究開発テーマの決め方(共著), (株)技術情報協会, 2016年

「新規事業テーマ」の探し方, 選び方, そして決定の条件(共著), (株)技術情報協会, 2015年

研究開発テーマの“遅れ”対策と効率化ノウハウ(共著), (株)技術情報協会, 2013年

2022年を見据えた 研究テーマ発掘の実践ノウハウ集(共著), (株)技術情報協会, 2012年

新しい研究開発者の評価と処遇(共著), (株)技術情報協会, 2011年

元気な会社からの「企業だより」日本化学会編(共著), (株)化学工業日報社, 2008年

学術論文、評論

「科学技術」

化学産業におけるCO2排出量の削減とCO2からの化学品製造, MATERIAL STAGE, 2022年10月号 「巻頭」, 1p.

これからの化学品製造(共著), エネルギー・資源, 2022年1月号, 23p.

化学産業におけるCO2排出量の削減と将来の化学品製造, 研究開発リーダー, 2022年1月号, 4p.

オレフィン重合触媒の開発と展開(共著), 触媒, 2019, 61, 163.

二酸化炭素の排出量削減と有用化学品への変換(共著), エネルギー・資源, 2019年5月号, 6p.

オレフィン重合触媒における分子内引力相互作用- 連鎖移動の制御(共著), 高分子論文集, 2018, 75,486.

将来の化学品原料源の選択と開発すべき技術(共著), エネルギー・資源, 2017年5月号, 126p.

ハーバー・ボッシュ法の開発 - 光と影(共著), エネルギー・資源, 2017年3月号, 42p.

物質変換と CO2排出削減, その現状と課題~化学の視点から~(共著), 日本学術会議 「記録」, SCJ第23期-290919-23541200-068, 2017年.

オレフィン重合シングルサイト触媒の開発と展開(共著), 工業材料, 2017年1月号, 40p.

オレフィン重合/選択的オリゴメリ化用新触媒の開発と展開(共著), 工業材料, 2016年1月号, 70p.

1-ヘキセン製造用触媒の開発(共著), 触媒, 2015, 57, 271.

資源・環境・エネルギーを切り口とする21世紀の触媒化学・化学工学に課せられた課題(共著), 日本学術会議 「記録」, SCJ第22期260901-22641200-039, 2014年.

FI触媒によるオレフィンポリマーの構造制御と機能性材料への展開(共著), 高分子, 2013年5月号 「展望」, 230p.

オレフィン重合触媒の動向(共著), 触媒, 2012, 54, 347.

1-ヘキセン製造用新触媒の開発:エチレンの選択的三量化触媒「SFI触媒」(共著), 月刊ファインケミカル, 2010年12月号, 12p.

オレフィン重合新触媒の開発とポリオレフィン新材料への展開(共著), 日本ゴム協会誌, 2010, 83, 289.

プラスチック触媒 「オレフィン重合触媒の開発と展開/ポリオレフィン新材料の創製」, 生産と技術, 2010, 62, 17.

FI触媒技術と有機合成技術の融合による高分子新材料の創製と展開(共著), 触媒, 2010, 52, 569.

ポリオレフィン:永久の主役, 高分子, 2010年11月号 「素描」, 833p.

地球環境問題の中でプラスチックの役割を再評価する, プラスチックスエージ, 2009年1月号 「座談会」, 53p.

オレフィン重合用新触媒「FI触媒」の開発と展開, ペトロテック, 2009, 32, 545.

極性と非極性を併せ持つ新材料の開発と展開(共著), 月刊ファインケミカル, 2009年7月号, 53p.

オレフィン重合触媒技術と精密有機合成技術の融合―極性と非極性を併せ持つ新材料の創製と展開―(共著), コンバーテック, 2009年12月号, 54p.

FI触媒が拓く高機能ポリオレフィン材料の世界(共著), 工業材料, 2008年5月号, 56p.

オレフィン重合触媒/この十年の軌跡(共著), 触媒, 2008, 50, 31.

オレフィン重合新触媒による高分子材料の創製(共著), 有機合成化学協会誌, 2008, 66, 444.

FI触媒によるオレフィン系機能性材料の創製(共著), 接着の技術, 2007, 26, 11.

FI Catalysts Have Opened Up a New Dimension in the Field of Polymer Synthesis, 高分子, 2007年4月号, 174p.

21世紀の触媒科学, 新たなイノベーションに向けて, 化学経済, 2007年1月号, 47p.

イミン系4族オレフィン重合触媒による新材料の創製, Polyfile, 2006年9月号, 28p.

オレフィンのリビング重合(共著), 未来材料, 2006, 6, 16.

ポストメタロセン触媒による新ポリマーの創製(共著), 現代化学, 2005年2月号, 21p.

次世代オレフィン重合触媒によるオレフィン系機能性材料の創出(共著), 化学工学, 2005, 69, 240.

フェノキシイミン錯体触媒の開発と応用(共著), 機能材料, 2004年10月号, 60p.

超高活性オレフィン重合触媒「FI触媒」の開発(共著), 科学と工業, 2004, 78, 72.

“フェノキシイミン錯体触媒” 「工業材料キーワード30」(共著), 工業材料, 2004年1月号, 66p.

オレフィン重合触媒の発見と展開(共著), M&E, 2003年11月号, 172p.

フッ素化FI触媒によるオレフィンのリビング重合(共著), Organometallic News, 2003, 132.

インドールイミン-チタン錯体を用いたエチレンのリビング重合(共著), 高分子論文集, 2002, 59, 410.

ポストメタロセン触媒の開発(共著), 半月間ファインケミカル, 2002, 31, 52.

“FI触媒” 「工業材料キーワード50」(共著), 工業材料, 2002年1月号, 26p.

超高活性ポストメタロセン触媒の開発と新ポリマ-の創製(共著), 化学工学, 2002, 66, 365.

FI触媒の開発と新ポリマーの創製(共著), 高圧ガス, 2002, 39, 44.

4遷移金属フェノキシイミン錯体触媒の開発と新ポリマーへの展開(共著), 高分子論文集, 2002, 59, 158.

オレフィン重合触媒の発見とその展開[その2](共著), 触媒, 2002, 44, 194.

オレフィン重合触媒の発見とその展開[その1](共著), 触媒, 2001, 43, 621.

オレフィン重合触媒:最近の進歩(共著), ペトロテック, 2001, 24, 11.

ポストメタロセン触媒の開発/配位子を主役とする触媒設計(共著), 機能材料, 2001年2月号, 25p.

超高活性オレフィン重合新触媒『FI触媒』の開発(共著), 有機合成化学協会誌, 2001, 59, 232.

FI触媒の開発とリビング重合への展開(共著), JETI, 2001, 49, 50p.

FI触媒の開発と新ポリマーへの展開(共著), プラスチックスエージ, 2001年11月号, 146p.

ポストメタロセン新触媒「FI触媒」の開発(共著), コンバーテック, 2000年1月号, 19p,

超高活性ポストメタロセン触媒;FI触媒 世界最高のエチレン重合活性を示すオレフィン重合新触媒(共著), 化学と工業, 2000, 53, 691.

FI触媒-ポストメタロセン新触媒の開発(共著), 触媒, 2000, 42, 310.

ポストメタロセン触媒研究の最近の進展(共著), M&E, 2000年11月号, 178p.

メタロセン触媒の発展/触媒構造からの5つのブレークスルー(共著), JETI, 2000, 48, 120.

21世紀に向けての触媒研究(共著), 触媒, 「座談会」, 2000, 42, 546.

FI触媒-ポストメタロセン新触媒, PACKPIA, 1999年10月号, 65p.

欧文

Development of new selective ethylene trimerization catalysts based on highly active ethylene polymerization catalysts, T. Fujita et al., Catal.Today, 2018, 303, 263.

Synthesis of Ethylene or Propylene/1,3-Butadiene Copolymers Possessing Pendant Vinyl Groups with Virtually No Internal Olefins, T. Fujita et al., Catalysts, 2015, 5, 2001.

Synthesis of Telechelic Olefin Polymers via Catalyzed Chain Growth on Multinuclear Alkylene Zinc Compounds, T. Fujita et al., J. Am. Chem. Soc., 2013, 135, 8177.

Isospecific Propylene Polymerization with in situ Generated Bis(phenoxy-amine)Zirconium and Hafnium Single Site Catalysts, T. Fujita et al., Dalton Trans., 2013, 42, 9112 .

Mechanism for Isotactic Styrene Polymerization with a C6F5-Substituted Bis(phenoxyimine) Titanium System, T. Fujita et al., Macromolecules, 2012, 45, 8588.

Ethylene and Ethylene/-Olefin (Co)Polymerization Behavior of Bis(phenoxy–imine)Ti Catalysts: Significant Substituent Effects on Activity and Comonomer Incorporation, T. Fujita et al., ACS Catal., 2011, 1, 254.

Value-added olefin-based materials originating from FI catalysis: Production of vinyl- and Al-terminated PEs, end-functionalized PEs, and PE/polyethylene glycol hybrid materials, T. Fujita et al., Catal. Today, 2011, 164, 2.

FI Catalysts: A Molecular Zeolite for Olefin Polymerization, T. Fujita et al., Adv. Synth. Catal., 2010, 352, 1635.

Trimerization of Ethylene to 1-Hexene with Ti Complexes Bearing Phenoxy-Imine Ligands with Pendant Donors Combined with MAO, T. Fujita et al., Organometallics, 2010, 29, 2394.

Preparation and Characteristics of Well-Defined Polyethylene/Polyethylene Glycol Hybrid Materials of Different Molecular Architectures, T. Fujita et al., Chem. Lett., 2010, 39, 1028.

Synthesis and Characteristics of Succinic Anhydride- and Disodium Succinate-Terminated Low Molecular Weight Polyethylenes, T. Fujita et al., Macromolecules, 2009, 42, 4356.

Tantalum Complexes Incorporating Tris(pyrazolyl)Borate Ligands: Syntheses, Structures, and Ethylene Polymerization Behavior, T. Fujita et al., Organometallics, 2009, 28, 6450.

Ethylene/Norbornene Copolymerization Behavior of Bis(phenoxy-imine)Ti Complexes Combined with MAO, T. Fujita et al., Macromolecules, 2009, 42, 4359.

Ethylene/Polar Monomer Copolymerization Behavior of Bis(phenoxy-imine)Ti Complexes: Formation of Polar Monomer Copolymers, T. Fujita et al., J. Am. Chem. Soc., 2008, 130, 17636.

Styrene Polymerization Behavior of Phenoxy-Imine Ligated Ti Complexes/MAO: Formation of Highly Isotactic and Syndiotactic PS, T. Fujita et al., Macromolecules, 2008, 41, 6289.

Synthesis of Chain End Functionalized Polyolefins with a Bis(phenoxy-imine) Titanium Catalyst, T. Fujita et al., Macromol. Rapid Commun., 2007, 28, 698.

Polymerization of Higher a-Olefins with a Bis(Phenoxy-Imine)Ti Complex/i-Bu3Al/Ph3CB(C6F5)4: Formation of Stereo- and Regioirregular High Molecular Weight Polymers with High Efficiency, T. Fujita et al., Macromolecules, 2006, 39, 4023.

Phenoxy-Cycloalkylimine Ligated Zirconium Complexes for Ethylene Polymerization: Formation of Vinyl-Terminated Low Molecular Weight Polyethylenes with High Efficiency, T. Fujita et al., Macromolecules, 2006, 39, 8584.

Titanium and Zirconium Complexes with Non-Salicylaldimine-Type Imine-Phenoxy Chelate Ligands: Synthesis, Structures, and Ethylene Polymerization Behavior, T. Fujita et al., Chem. Asian J., 2006, 1, 878.

Ultrahigh Molecular Weight Polyethylene Produced by a Bis(phenoxy-imine) Titanium Complex Supported on Latex Particles, T. Fujita et al., J. Polym. Sci., Part A: Polym. Chem., 2006, 44, 3103.

Selective Synthesis of Al-Terminated Polyethylenes Using a Bis(Phenoxy-Imine) Zr Complex with Methylalumoxane, T. Fujita et al., Macromolecules, 2005, 38, 4955.

Ethylene/Higher α-Olefin Copolymerization Behavior of Fluorinated Bis(phenoxy-imine)titanium Complexes with Methylalumoxane: Synthesis of New Polyethylene-Based Block Copolymers, T. Fujita et al., Macromolecules, 2005, 38, 1546.

A Novel Heteroligated Phenoxy-Based Titanium Complex: Structure, Stability, and Ethylene Polymerization Behavior, T. Fujita et al., Chem. Lett., 2005, 34, 1458.

Synthesis of Bis(phenoxyimine) Ti Alkyl Complexes and Observation of Living Species by 1H NMR Spectroscopy, T. Fujita et al., Chem. Lett., 2005, 34, 1382.

Propylene Polymerization Behavior of Fluorinated Bis(phenoxy-imine) Ti Complexes with an MgCl2-Based Compound (MgCl2-Supported Ti-Based Catalysts), T. Fujita et al., Macromol. Chem. Phys., 2005, 206, 1847.

Living Copolymerization of Ethylene with Norbornene Catalyzed by Bis(Pyrrolide-Imine) Titanium Complexes with MAO, T. Fujita et al., J. Am. Chem. Soc., 2004, 126, 12023.

Observation and Identification of the Catalytically Active Species of Bis(phenoxy-imine) Group 4 Transition Metal Complexes for Olefin Polymerization Using 1H NMR Spectroscopy, T. Fujita et al., Macromol. Symp., 2004, 213, 221.

Highly Isospecific Polymerization of Propylene with Bis(phenoxy-imine) Zr and Hf Complexes Using iBu3Al/Ph3CB(C6F5)4 as a Cocatalyst, T. Fujita et al., Chem. Lett., 2004, 33, 250.

Polyethylenes Having Well-Defined Bimodal Molecular Weight Distributions Formed with Bis(Phenoxy-Imine) Zr Complexes, T. Fujita et al., Macromol. Chem. Phys., 2004, 205, 1179.

Phenoxy-Ether Ligated Ti Complexes for the Polymerization of Ethylene, T. Fujita et al., Macromol. Rapid Commun., 2004, 25, 493.

Olefin Polymerization Behavior of Bis(Phenoxy-Imine) Zr, Ti and V Complexes with MgCl2-based Cocatalysts t, T. Fujita et al., J. Mol. Catal. A, 2004, 213, 141.

Syndiospecific Living Propylene Polymerization Catalyzed by Titanium Complexes Having Fluorine-Containing Phenoxy-Imine Chelate Ligands, T. Fujita et al., J. Am. Chem. Soc., 2003, 125, 4293.

Polyethylenes with Uni-, Bi-, and Trimodal Molecular Weight Distributions Produced with a Single Bis(phenoxy-imine)zirconium Complex, T. Fujita et al., Macromolecules, 2003, 36, 523.

New olefin polymerization catalyst systems comprised of bis(phenoxy-imine) titanium complexes and MgCl2-based activators, T. Fujita et al., J. Catal., 2003, 215, 171.

Morphological Studies on Well-Defined Polyethylene-b-poly(ethylene-co-propylene) by AFM, T. Fujita et al., Chem. Lett., 2003, 32, 1182.

Highly-Active, Thermally-Robust V-Based New Olefin Polymerization Catalyst System, T. Fujita et al., Chem. Lett., 2003, 32, 766.

Combination System of Fluorine-containing Phenoxy-imine Ti Complex and Chain Transfer Agent: A New Methodology for Multiple Production of Monodisperse Polymers, T. Fujita et al., Chem. Lett., 2003, 32, 238.

Regio- and Stereochemistry in Propylene Polymerization Catalyzed with Bis(phenoxy-imine) Zr and Hf Complexes/MAO Systems, T. Fujita et al., Macromol. Rapid Commun., 2003, 24, 894.

Ethylene and Propylene Polymerization Behavior of a Series of Bis(Phenoxy-Imine) Titanium Complexes, T. Fujita et al., J. Mol. Catal., A, 2003, 200, 31.

Bis(Phenoxy-Imine) Zr Complexes / Et3Al / Heteropoly Compound Catalyst Systems for Ethylene Polymerization, T. Fujita et al., Macromol. Rapid Commun., 2003, 24, 732.

Higher α-Olefin Polymerization Behavior of a Bis(Phenoxy-Imine)Titanium Complex/i-Bu3Al/Ph3CB(C6F5)4 Catalyst System, T. Fujita et al., Chem. Lett., 2003, 32, 236.

Ethylene and Ethylene/Propylene Polymerization Behavior of Bis(Phenoxy-Imine) Zr and Hf Complexes with Perfluorophenyl Substituents, T. Fujita et al., Macromol. Rapid Commun., 2003, 24, 452.

Polyolefin Structural Control using Phenoxy-Imine Ligated Group 4 Transition Metal Complex Catalysts, T. Fujita et al., e-Polymers, 2003, no. 021.

Living Polymerization of Ethylene Catalyzed by Titanium Complexes Having Fluorine-Containing Phenoxy–Imine Chelate Ligands, T. Fujita et al., J. Am. Chem. Soc., 2002, 124, 3327.

Fluorine- and Trimethylsilyl-Containing Phenoxy-Imine Ti Complex for Highly Syndiotactic Living Polypropylenes with Extremely high Melting Temperatures, T. Fujita et al., J. Am. Chem. Soc., 2002, 124, 7888.

Living Ethylene / Norbornene Copolymerisation Catalyzed by Titanium Complexes having Pyrrolide-Imine Chelate Ligands, T. Fujita et al., Chem. Commun., 2002, 1298.

New Titanium Complexes bearing two Indolide-Imine Chelate Ligands for the Polymerization of Ethylene, T. Fujita et al., Macromolecules, 2002, 35, 4880.

Propylene Polymerization with Bis(phenoxy-imine) Group-4 Catalysts Using iBu3Al/Ph3CB(C6F5)4 as a Cocatalyst, T. Fujita et al., Macromol. Rapid Commun., 2002, 23, 1118.

Catalytic Behavior of Bis(Pyrrolide-Imine) and Bis(Phenoxy-Imine) Titanium Complexes for the Copolymerization of Ethylene with Propylene, 1-Hexene or Norbornene, T. Fujita et al., Israel J. Chem., 2002, 42, 353.

A Bis(Phenoxy-Imine)Zr Complex for Ultrahigh-Molecular-Weight Amorphous Ethylene-Propylene Copolymer, T. Fujita et al., Macromol. Rapid Commun., 2002, 23, 693.

Synthesis and Ethylene Polymerization Behavior of a New Ti Complex Having Two Imine-Phenoxy Chelate Ligands, T. Fujita et al., Chem. Lett., 2002, 358.

Zirconium Complexes having Phenoxy-Cycloalkylimine Chelate Ligands for the Polymerisation of Ethylene for Vinyl-Terminated Low Molecular Weight Polyethylenes, T. Fujita et al., Chem. Lett., 2002, 740.

A New Titanium Complex having two Phenoxy-Imine Chelate Ligands for Ethylene Polymerization, T. Fujita et al., Macromol. Chem. Phys., 2002, 203, 59.

Highly Active Ethylene Polymerization Catalysts based on Titanium Complexes having Two Phenoxy-Imine Chelate Ligands, T. Fujita et al., J. Mol. Catal., A, 2002, 179, 11.

New Titanium Complexes Having Two Pyrrolide-Imine Chelate Ligands: Syntheses, Structures, and Ethylene Polymerization Behavior, T. Fujita et al., Organometallics, 2001, 20, 4793.

A Family of Zirconium Complexes Having Two Phenoxy-Imine Chelate Ligands for Olefin Polymerization, T. Fujita et al., J. Am. Chem. Soc., 2001, 123, 6847.

Living Polymerization of Ethylene with a Titanium Complex containing Two Phenoxy-Imine Chelate Ligands, T. Fujita et al., Angew. Chem., Int. Ed., 2001, 40, 2918.

New Cumene-Oxidation Systems : O2 Activator Effects and Radical Stabilizer Effects, T. Fujita et al., Catal. Today, 2001, 71, 145.

Ethylene Polymerization Behavior of New Titanium Complexes having Two Phenoxy-Pyridine Chelate Ligands, T. Fujita et al., Chem. Lett., 2001, 1060.

Highly Syndiospecific Living Polymerization of Propylene Using a Titanium Complex Having Two Phenoxy-Imine Chelate Ligands, T. Fujita et al., Chem. Lett., 2001, 576.

New Titanium Complexes having two Indolide-Imine Chelate Ligands for Living Ethylene Polymerization, T. Fujita et al., Chem. Lett., 2001, 566.

Ethylene Polymerization Activity under Practical Conditions Displayed by Zirconium Complexes Having Two Phenoxy-Imine Chelate Ligands, T. Fujita et al., J. Mol. Catal. A, 2001, 169, 99.

Microstructure of Highly Syndiotactic “Living” Poly(propylene)s Produced from a Titanium Complex with Chelating Fluorine-Containing Phenoxy-Imine Ligands (an FI Catalyst), T. Fujita et al., Macromol. Rapid Commun., 2001, 22, 1072.

New Monodisperse Ethylene-Propylene Copolymers and a Block Copolymer Created by a Titanium Complex Having Fluorine-Containing Phenoxy-Imine Chelate Ligands, T. Fujita et al., Chem. Lett., 2001, 822.

FI Catalysts: Super Active New Ethylene Polymerization Catalysts, T. Fujita et al., Catal. Today, 2001, 66, 63.

Post-Metallocenes: New Bis(pyrrolyl-2-aldiminato) Titanium Complexes for Ethylene Polymerization, T. Fujita et al., Chem. Lett., 2000, 1270.

Polymerization of 1-Hexene with bis[N-(3-tert-butylsalicylidene)phenylaminato]Titanium(IV) Dichloride using iBu3Al/Ph3CB(C6F5)4 as a Cocatalyst, T. Fujita et al., Macromol. Rapid Commun., 2000, 21, 1333.

Post-Metallocenes: Catalytic Performance of New Bis(salicylaldiminato)Zirconium Complex for Ethylene Polymerization, T. Fujita et al., Chem. Lett., 2000, 554.

Post-Metallocenes: A New Bis(salicylaldiminato)Zirconium Complex for Ethylene Polymerization, T. Fujita et al., Chem. Lett., 1999, 1263.

New Bis(salicylaldiminato)Titanium Complexes for Ethylene Polymerization, T. Fujita et al., Chem. Lett., 1999, 1065.

Reviews, Accounts & Concepts

FI Catalyst for Olefin Oligomerization and Polymerization: Production of Useful Olefin-Based Materials by Unique Catalysis, T. Fujita et al., Top. Catal., 2014, 57, 852.

Attractive Interactions in Olefin Polymerization Mediated by Post-metallocene Catalysts with Fluorine-Containing Ancillary Ligands, T. Fujita et al., Catal. Sci. Technol., 2014, 4, 599.

FI Catalysts for Olefin Polymerization – A Comprehensive Treatment, T. Fujita et al., Chem. Rev., 2011, 111, 2363.

Early-Transition-Metal Catalysts with Phenoxy–Imine-Type Ligands for the Oligomerization of Ethylene, T. Fujita et al., Chem. Asian J., 2011, 6, 284.

FI Catalysts: Unique Olefin Polymerization Catalysis for Formation of Value-Added Olefin-Based Materials, T. Fujita et al., J. Jpn. Petrol. Inst., 2010, 53, 111.

Development and Application of FI Catalysts for Olefin Polymerization: Unique Catalysis and Distinctive Polymer Formation, T. Fujita et al., Acc. Chem. Res., 2009, 42, 1532.

High Performance Olefin Polymerization Catalysts Discovered on the Basis of a New Catalyst Design Concept, T. Fujita et al., Chem. Soc. Rev., 2008, 37, 1264.

Living Olefin Polymerization and Block Copolymer Formation with FI Catalysts, T. Fujita et al., Polym. J., 2007, 39, 193.

MgCl2/R’nAl(OR)3-n: An Excellent Activator/Support for Transition-Metal Complexes for Olefin Polymerization, T. Fujita et al., Chem. Eur. J., 2006, 12, 7546.

Fluorinated Bis(Phenoxy–Imine) Ti Complexes with MAO: Remarkable Catalysts for Living Ethylene and Syndioselective Living Propylene Polymerization, T. Fujita et al., J. Organomet. Chem., 2005, 690, 4398.

Bis(Pyrrolide–Imine) Ti Complexes with MAO: A New Family of High Performance Catalysts for Olefin Polymerization, T. Fujita et al., J. Organomet. Chem., 2005, 690, 4382.

Propylene Polymerization with Bis(phenoxy-imine) Group 4 Transition Metal Complexes, T. Fujita et al., Bull. Chem. Soc. Jpn., 2005, 78, 52.

FI Catalysts: New Olefin Polymerization Catalysts for the Creation of Value-Added Polymers, T. Fujita et al., Chem. Rec., 2004, 4, 137.

Development of Single-Site New Olefin Polymerization Catalyst Systems using MgCl2-Based Activators: MAO-Free MgCl2-Supported FI Catalyst Systems, T. Fujita et al., Bull. Chem. Soc. Jpn., 2004, 77, 617.

New High-Performance Catalysts Developed at Mitsui Chemicals for Polyolefins and Organic Synthesis, T. Fujita et al., Catal. Surv. Asia, 2004, 8, 61.

Recent Advances in Phenoxy-Based Catalysts for Olefin Polymerization, T. Fujita et al., Bull. Chem. Soc. Jpn., 2003, 76, 1493.

Unprecedented Living Olefin Polymerization Derived from an Attractive Interaction between a Ligand and a Growing Polymer Chain, T. Fujita et al., Chem. Eur. J., 2003, 9, 2396.

Development of FI Catalyst Systems and Their Applications to New Polyolefin-based Materials, T. Fujita et al., J. Synth. Org. Chem., Jpn., 2003, 61, 1124.

FI Catalysts: A New Family of High Performance Catalysts for Olefin Polymerization, T. Fujita et al., Adv. Synth. Catal., 2002, 344, 477.

“FI CATALYSTS” FASTEST YET, T. Fujita et al., LOOK JAPAN, 2000, 46, 33.

「研究開発マネジメント」

新規事業テーマの創出とリーダー・メンバーの人選, 研究開発リーダー, 2019年5月号, 27p

触媒学会創立60周年記念座談会, 触媒, 2018, 60, 180.

経験的グローバル人材論, 有機合成化学協会誌, 「巻頭言」, 2018, 76, 779.

研究リーダーの役割, 触媒, 「時評」, 2017, 59, 241.

グローバル人材の必要条件とその育成, 研究開発リーダー, 2017年4月号, 27p.

日本の研究開発の現状と企業の若手研究開発人材の育成, 研究開発リーダー, 2016年11月号, 21p.

プロジェクトメンバー選抜の考え方と仕事の任せ方, 研究開発リーダー, 2015年11月号, 29p.

フランスそしてシンガポール, 高分子, 2015年1月号, 35p.

新規事業の創出とリーダー, 研究開発リーダー, 2014年11月号 「巻頭言」, 1p.

顧客目線と技術でアセアン市場を攻める(共著), 研究開発リーダー, 2014年5月号, 33p.

日本の化学産業:リーディング・インダストリーになれるか?, 化学と工業, 2014年5月号 「巻頭言」, 389p.

「アジアのR&Dハブ」を目指すシンガポールの現状と課題, 化学経済, 2014年1月号, 89p.

勃興するアジアの化学現場から 「アジアにシフトする化学」(共著), 現代化学, 2014年1月号 「新春座談会」, 18p.

将来を見据えた研究開発, 研究開発リーダー, 2013年6月号 「巻頭言」, 1p.

サマリー35年間 -文部科学大臣賞を受賞して―, るつぼ, 2012, 60, 42.

R&D拠点としてのシンガポール/現状と課題(共著), 研究開発リーダー, 2012年9月号, 53p.

化学産業のこれからの「研究開発」, 化学経済, 2011年2月号, 19p.

企業研究の成功確率を上げるために, 未来材料, 2011年11月号 「巻頭言」, 1p.

日本の化学技術の強さを維持するには(共著), 国際化を進める化学企業, 現代化学, 2011年8月号 「企業研究者による本音座談会」, 24p.

企業における研究-意思があれば道は拓ける, 未来材料, 2009, 9, 60.

研究所の運営と人材育成(共著), 研究開発リーダー, 2009年10月号, 34p.

企業の管理者は教師, 千葉教育, 「提言」, 平成19年(2007年)6月号 No.564.

企業における研究, 化学と工業, 2006, 59, 267.

講演、シンポジウム、学会発表

「国際学会/招待講演・基調講演」

Development of New Olefin Insertion Catalysts and the Frmation of Value-Added Olefin-Based Materials, The 8th Asian Polyolefin Workshop (APO2019), Dec, 3, 2019, Higashi-Hiroshima, Japan

Development of Strikingly Active Catalysts for the Selective Trimerization of Ethylene to 1-Hexene Based On FI Catalysts for Olefin Polymerization, TOCAT 9, Aug. 5-10, 2018, Yokohama, Japan

Development of New Olefin Insertion Catalysts and the Formation of Value-Added Olefin-Based Materials, The 13th International Kyoto Conference on New Aspects of Organic Chemistry(IKCOC-13), Nov. 9-13, 2015, Kyoto, Japan

Development and Application of New Olefin Insertion Catalysts, The 15th Tateshina Conference on Organic Chemistry, Nov. 6-7, 2015, Chino, Nagano, Japan

New High-Performance Catalysts Developed at Mitsui Chemicals, The 16th International Symposium on Relations between Homogeneous and Heterogeneous Catalysis (ISHHC-16), Aug. 4-9, 2013, Hokkaido University, Sapporo, Japan

Forging a New Path: FI Catalysts and the Creation of Value-Added Olefin-Based Materials, Molecular Materials Meeting (M3) @ Singapore 2013, Jan. 14-16, 2013, Biopolis, Singapore

FI Catalysts: High Performance New Olefin Oligomerization and Polymerization Catalysts, ICES Scientific Conference 10th Anniversary, Innovative Chemical & Engineering Solutions for Sustainable Growth, Oct. 29-30, 2012, Biopolis, Singapore

FI Catalysts for Olefin Oligomerization and Polymerization: Principles and Practice, Chemelot International Polyolefins Symposium (CIPS 2012), Oct. 7-10, 2012, Maastricht, Netherland

Development and Application of FI Catalysts for the Oligomerization and Polymerization of Olefinic Monomers, The 70th Founding Commemorative Symposium, The Society of Synthetic Organic Chemistry, Japan, Sep. 7, 2012, Shizuoka, Japan

Advanced Olefin-Based Polymers and their Material Applications, The 2nd Molecular Materials Meeting on “Frontiers in Materials Science, Chemistry & Physics”, Jan. 9-11, 2012, Biopolis, Singapore

An Introduction to Some of the Advanced Catalyst Technologies Developed at Mitsui Chemicals, Japan-Singapore Chemicals R&D Conference 2011, Oct. 20-21, 2011, Biopolis, Singapore

Olefin Polymerization: FI Catalysts for the Creation of Value-Added Olefin-Based Materials, Germany-Japan Chemistry Symposium (Angewandte Symposium), Catalysis & Synthesis, Advanced Materials & Chemical Biology, June 20, 2011, Tokyo Institute of Technology, Tokyo, Japan

FI Catalysts: Unique Olefin Polymerization Catalysis for Value-Added Polymers, SPE ASIATEC2011, Feb. 15-16, 2011, Tokyo, Japan

Polymerization of olefins with FI catalysts: Principles and industrial applications, Pacifichem2010, Dec. 15-20, 2010, Hawaii, USA

FI Catalysts: Unique Olefin Polymerization Catalysis for the Formation of Value-Added Olefin-Based Materials, TOCAT6/APCAT5 (The 6th Tokyo Conference on Advanced Catalytic Science and Technology & The 5th Asia Pacific Congress on Catalysis) , July 18-23, 2010, Sapporo, Japan

FI Catalysts: Unique Olefin Polymerization Catalysis for the Formation of Value-Added Olefin-Based Materials, The 1st Federation of Asian Polymer Societies (FAPS) Polymer Congress, Oct. 20 - 23, 2009, Nagoya, Japan

FI Catalysts: Unique Olefin Polymerization Catalysis for the Creation of Value-Added Polymers, IRTG Minisymposium 2008, Oct. 24-25, 2008, Muenster University, Germany

Development of New Olefin Polymerization Catalysts and their Applications to Novel Value-Added Polymers, The 14th International Congress on Catalysis (ICC 14), July 13-18, 2008, Seoul, Korea

Discovery and Development of Imine-Based Transition Metal Catalysts for the Creation of New Olefin-Based Materials, International Symposium on Creation and Control of Advanced Selective Catalysis, July 8-12, 2008, Kyoto, Japan

New Olefin Polymerization Catalysts: FI Catalysts, Minisymposium Mitsui at ISIS-ULP, July 11, 2007, University Louis-Pasteur of Strasbourg, Strasbourg, France

FI Catalysts: New High Performance Catalysts for Olefin Polymerization, International Conference on Materials for Advanced Technologies 2007 (ICMAT 2007), July 1-6, 2007, Suntec Singapore International Convention & Exhibition Centre, Singapore

Discovery and Development of FI Catalysts for Olefin Polymerization: Unique Catalysis and Distinctive Polymer Formation, The 3rd Mitsui Chemicals International Symposium on Catalysis Science (MICS2007), March 14-15, 2007, Kisarazu, Chiba, Japan

Unprecedented Living Olefin Polymerization Mediated by FI Catalysts - Creation of Unique Polyolefinic Materials -, The 1st International Conference on Advanced Organic Synthesis Directed toward Ultimate Efficiency and Practicability, May 28-30, 2006, Otsu, Shiga, Japan

Living Olefin Polymerization Catalyzed by Fluorinated Ti-FI Catalysts: Creation of Unique Olefin-Based Materials, Singapore International Chemical Conference IV (SICC-4), Dec. 8-10, 2005, Shangri-La Hotel, Singapore

Creation of New Olefin-Based Materials Using New Catalysts, Gordon Research Conference, Polymers (East) 2005, June 19-24, 2005, Mount Holyoke College, Massachusetts, USA

Development of FI Catalysts and their Applications to Value-Added Polymers, International Symposium on Catalysis & Fine Chemicals 2004 (C&FC2004), Dec. 12-15, 2004, Hong Kong Polytechnic University, Hong Kong

Creation of Value-Added Polymers Using New Olefin Polymerization Catalysts, Mitsui Chemicals Symposium on Advanced Materials at ISIS-ULP (The Professor Jean-Marie Lehn Symposium on Advanced Materials), Nov. 22, 2004, University Louis-Pasteur of Strasbourg, Strasbourg, France

FI Catalysts for Living Olefin Polymerization, The 14th International Symposium on Homogeneous Catalysis (ISHC-14), July 5-9, 2004, Munich, Germany

Development of MAO-Free New Single-Site Catalyst Systems, The 15th International Symposium on Olefin Metathesis and Related Chemistry (ISOM XV), July 28 - August 1, 2003, Kyoto, Japan

Unprecedented Living Olefin Polymerization promoted by Group 4 Transition Metal Complexes, European Polymer Conference on Stereospecific Polymerization and Stereoregular Polymers (EUPOC 2003), June 8-12, 2003, Milano, Italy

FI Catalysts: High Performance New Olefin Polymerization Catalysts, Fourth Tokyo Conference on Advanced Catalytic Science and Technology (TOCAT 4), July 14 -19, 2002, Tokyo, Japan

Development of New Olefin Polymerization Catalysts and their Applications to Novel Polymers, ACS Spring Meeting, April 7-11, 2002, Orlando, Florida, USA

The First MgCl2-based Single-Site Catalyst System Comprised of Bis(phenoxy-imine) Titanium Complexes/Alkylaluminum/MgCl2, The 2nd JAIST/JLPO Workshop on Ziegler-Natta Catalysts, June 21, 2002, Furore, Italy

Unprecedented Living Olefin Polymerization Promoted by FI Catalysts, The 1st Blue Sky Conference on Catalytic Olefin Polymerization, June 19, 2002, Sorrento, Italy

FI Catalysts: High Performance New Olefin Polymerization Catalysts, The 17th North American Catalysis Society Meeting (NACS2001), 2001: Horizons of Catalysis, June 3-8, 2001, Toronto, Ontario, Canada

Studies on Unique Polyolefins Prepared with Single-Site Catalyst Systems, ACS Spring Meeting, April 1-5, 2001, SanDiego, California, USA

FI Catalysts: High Performance New Olefin Polymerization Catalysts, International Symposium on Future Technologies for Polyolefin and Olefin Polymerization Catalysis, March 21-24, 2001, Tokyo, Japan

FI Catalysts: Super Active New Olefin Polymerization Catalysts, PACIFICHEM 2000, Dec. 14-19, 2000, Hawaii, USA

FI Catalysts: Super Active New Olefin Polymerization Catalysts, FLEXPO2000, Aug. 24, 2000, Houston, TX, USA

Recent Progress of Mitsui’s New Postmetallocenes; FI Catalysts, MetCon2000 : Polymers In Transition, “Platforms in Single-Site Catalysis”, June 8, 2000, Houston, TX, USA

FI Catalysts: Super Active New Olefin Polymerization Catalysts, The 3rd Seminar on Science and Technology: Catalysis 「10th Japan-ROC Symposium on Catalysis」, March 10, 2000, Fukuoka, Japan

FI Catalysts: Beyond Metallocene New Olefin Polymerization Catalysts, 10th CRC International Symposium of Catalysis Research Center, 「Japan-France-Germany Trilateral Symposium on Catalysis」, Dec. 7. 1999, Sapporo, Japan

Beyond Metallocenes: New Olefin Polymerization Catalysts with Exceptionally High Ethylene Polymerization Activity, MetCon’99: Polymers in Transition, June 9, 1999, Houston, TX, USA

受賞

2015年  Fellow of the Royal Society of Chemistry [英国]

2011年  有機合成化学協会賞(学術的), 「FI触媒によるオレフィン系高分子材料の創製」

2010年  文部科学大臣表彰(科学技術賞 研究部門), 「オレフィン重合新触媒及びオレフィン系高分子新材料の研究」

2010年  触媒学会賞(学術部門), 「オレフィン重合用ポストメタロセン触媒の研究開発」

2008年  石油学会賞(学術的), 「オレフィン重合用イミン系4族錯体触媒に関する研究」

2008年  山﨑貞一賞(材料分野), 「オレフィン重合新触媒の開発とポリオレフィン新材料の創製」

2005年  高分子学会賞(科学), 「イミン系4族オレフィン重合触媒の体系化とオレフィン系新規材料の創製」

2003年  日本化学会学術賞, 「ポストメタロセン触媒の開発と新ポリマーへの展開」

2002年  The 1st JLPO Award, 「Unprecedented Living Olefin Polymerization Promoted by FI Catalysts」 [イタリア]

2002年  三井化学株式会社 社長賞, 「ポリオレフィン用次世代触媒の開発」

2001年  触媒学会奨励賞, 「オレフィン重合用フェノキシイミン錯体触媒の開発」

その他

「国際特許出願」

Catalyst for Olefin Multimerization and Method of Producing Olefin Multimer in Presence of Said Catalyst, WO-19009390 (2019).

Olefin Multiblock Copolymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267041 (2010).

Method for Producing Olefin, WO-10064500 (2010).

Method for producing Alkylated Aromatic Compound, Method for Producing Cumene, and Method for Producing Phenol, WO-10047364 (2010).

Olefin Polymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267045 (2010).

Olefin Polymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267044 (2010).

Tapered Olefin Copolymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267043 (2010).

Olefin Diblock Copolymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267042 (2010).

Olefin Multiblock Copolymer of Very Low Polydispersity and Process for Preparing the Same, EP-2267041 (2010).

Olefin Polymerization Catalyst and Process for Olefin Polymerization, EP-2050769 (2009).

Process for Production of Alkylated Aromatic Compounds and Process for Production of Phenol, WO-09063763 (2009).

α-Olefin/Unconjugated Cyclic Polyene Copolymer, Process for Producing the Same, and Crosslinkable Composition Containing the Copolymer, EP-1881014 (2008).

Ethylene (Co)polymer and its Use, EP-1878757 (2008).

Use of a Modified Ethylene/α-Olefin Copolymer as Resin Modifier, EP-1876189 (2008).

Capsular Fine Particle Comprising Olefinic Polymer, EP-1875961 (2008).

Olefin Block Copolymer, WO-07102227 (2007).

Ethylene Polymer Fine Particles, Functional Group-containing Ethylene Polymer Fine Particles, and Catalyst Carrier for Production Thereof, EP-1829900 (2007).

Method for Producing Alkylated Aromatic Compound and Method for Producing Phenol, EP-2103584 (2007).

Process for Producing a Copolymer of a Non-polar Olefin and a Polar Olefin and the Copolymer Obtained Thereby, EP-1832609 (2006).

α-Olefin/Cycloolefin/Polyene Copolymer and Process for Production the Same, WO-06118261 (2006).

α-Olefin/Unconjugated cyclic polyene copolymer, process for producing the same, and crosslinkable composition containing the copolymer, WO-06121086 (2006).

Catalysts for Olefin Polymerization, Process for Production of Olefin Polymers and Olefin Copolymers, EP-1788002 (2006).

Film or Sheet Made from Olefin Block Copolymer, WO-06098223 (2006).

Polyolefin Functional at Each End, EP-1666507 (2006).

Process for Producing a Polyolefin Functional at One End, One-end Functional Polyolefin for Viscosity Adjusting Agent of Oil, EP-1666506 (2006).

Ethylene Polymer, EP-1632505 (2006).

Ethylene Polymer Fine Particles, Functional Group-containing Ethylene Polymer Fine Particles, and Catalyst Carriers for Production Thereof, WO-06054696 (2006).

Process for Production of Low-molecular Olefin Polymer Having a Terminal Double Bond, WO-06057229 (2006).

Capsular Fine Particle Comprising Olefinic Polymer, WO-06109747 (2006).

Catalysts for Olefin Polymerization, Process for Production of Olefin Polymers, Olefin Copolymers, Novel Transition Metal Compounds, and Process for Production of Transition Metal Compounds, WO-06022355 (2006).

Process for Producing Ethylene/α-Olefin/Unconjugated Polyene Copolymer and Ethylene/α-Olefin/Unconjugated Polyene Copolymer, EP-1586591 (2005).

Polyolefin Functional at Each End, WO-05021601 (2005).

Polyolefin Functional at One End, WO-05021600 (2005).

Ethylene (Co)polymer and its Use, EP-1582533 (2005).

Supported Olefin Polymerization Catalyst, EP-1555272 (2005).

Ethylene Polymer, WO-04104055 (2004).

Process for Producing Ethylene/α-Olefin/Unconjugated Polyene Copolymer, WO-04065435 (2004).

Olefin Polymerization Catalyst, Process for Polymerizing Olefins, Ethylene Polymer Obtained by Said Process and Use Thereof, EP-1270603 (2002).

Olefin Block Copolymer, Viscosity Index Improver for Lubricating Oils and Lubricating Oil Composition, EP-1262498 (2002).

Process for the Polymerization of Olefins, EP-1243598 (2002).

Polymer and Process for Producing the Same, WO-02008306 (2002).

Polymer and Process for Producing the Same, EP-1241194 (2002).

Olefin Polymerization Catalyst and Process for Producing Olefin Polymer with the Catalyst, EP-1238989 (2002).

Olefin Triblock Copolymers and Production Processes Thereof, EP-1197500 (2002).

Process for the Polymerization of Olefins, WO-02002649 (2002).

Process for Producing a Copolymer of a Non-polar Olefin and a Polar Olefin and the Copolymer Obtained Thereby, EP-1170308 (2002).

Olefin Polymers and Production Processes Thereof, WO-0155231 (2001).

Ethylene (Co)polymers and Uses Thereof, EP-1162211 (2001).

Ethylene (Co)polymers and Uses Thereof, WO-00078828 (2000).

Ethylene Copolymer and Process for Producing the Same, Resin Composition Containing the Copolymer, and Uses of These, EP-1043359 (2000).

Use of an Ethylene/α-Olefin Copolymer as a Base Oil in a Lubricant Composition, EP-1043341 (2000).

Ethylene Copolymer and Process for Producing the Same, Resin Composition Containing the Copolymer, and Uses of These, WO-00024822 (2000).

Olefin Polymerization Catalyst and Process for Olefin Polymerization Using this Catalyst, EP-1013674 (2000).

Olefin Polymerization Catalyst and Process for Olefin Polymerization, EP-1008595 (2000).

Catalyst for Olefin Polymerization and Method for Polymerizing Olefin, EP-1004600 (2000).

Catalyst for Olefin Polymerization and Method of Polymerizing Olefin, EP-1004599 (2000).

Catalyst for Olefin Polymerization and Method of Polymerizing Olefin, EP-990664 (2000).

Ethylene (Co)polymers and Uses Thereof, WO-00078828 (2000).

Catalyst for Olefin Polymerization and Method of Polymerizing Olefin, WO-99065952 (1999).

Catalyst for Olefin Polymerization and Method of Polymerizing Olefin, WO-99065951 (1999).

Olefin Polymerization Catalyst and Polymerization Process, EP-950667 (1999).

Catalyst Component, Catalyst and Process for Ethylenically Unsaturated Monomer Polymerization, EP-924223 (1999).

Olefin Polymerization Catalyst and Process for the Production of Olefin Polymers, EP-893454 (1999).

Olefin Polymerization Catalyst and Process for Producing Polymers, WO-9834961 (1998)

Olefin Polymerization Catalysts, Transition Metal Compounds, Processes for Olefin Polymerization, and α-Olefin/Conjugated Diene Copolymers, EP-874005 (1998).

Novel transition metal compound for use as a polymerization catalyst, EP-629632 (1995).

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