2024
Unveiling
the Mechanistic Role of
Chiral Palladacycles in
Pd(II)-Catalyzed
Enantioselective
C(sp3)-H
Functionalization.
Chen-Hui Yuan,
Xiao-Xia Wang, Keyun
Huang, and Lei Jiao. Angew.
Chem. Int. Ed.
2024, e202405062. DOI:
10.1002/anie.202405062.
Palladium
(II)-Catalyzed C-H
Activation with
Bifunctional
Ligands: From
Curiosity to
Industrialization.
Kevin Wu, Nelson Lam,
Daniel A. Strassfeld,
Zhoulong Fan, Jennifer
X. Qiao, Tao Liu, Dean
Stamos, and Jin-Quan
Yu. Angew. Chem.
Int. Ed. 2024,
e20240050929/3/2024.
DOI:
10.1002/anie.202400509.
When
is an Imine
Directing Group a
Transient Imine
Directing Group in
C-H
Functionalization?
Joe I. Higham, Tsz-Kan
Ma, and James A. Bull.
Chem. Eur. J.
2024, e202400345. DOI:
10.1002/chem.202400345.
Chiral amino
acids: evolution in
atroposelective C–H
activation.
Diksha Parmar, Rohit
Kumar and Upendra
Sharma. Org.
Biomol. Chem.,
2024, 22, 5032-5051.
DOI:
10.1039/d4ob00739e.
Synthesis
of Chiral
Cyclopentadienyl
Rhodium Complexes
and Their
Application in
Enantioselective C–H
Functionalization
Reactions.
Bo-Bo Gou, Wen-Jie
Shen, Qing Gu, Shu-Li
You. Synlett
2024, 35, A–J. DOI:
10.1055/a-2493-8106.
Palladium
catalyzed C(sp3)–H bond
activation of free
carboxylic acids: An
adventure of ligand
evolution. Dong
Li, Xiao-Bao He, Liang
Jin, Xin Yu, Qi Zhang. Tetrahedron
Letters 138 (2024)
154951. DOI:
10.1021/acscatal.3c00389.
2023
(P,C)-cyclometalated
complexes derived from
naphthyl phosphines:
versatile and powerful tools
in organometallic chemistry. Julien
Monot, Enrico Marelli,
Blanca Martin-Vaca and
Didier Bourissou. Chem.
Soc. Rev., 2023, 52,
3543. DOI:
10.1039/d2cs00564f.
Free Amine and Alcohol As
the Director for
Regioselective C(sp2)−H Bond
Functionalization.
Rahul Keshri, Debanjan Rana,
Argha Saha, Shaeel Ahmed
Al-Thabaiti, Abdulmohsen Ali
Alshehri, Salem M. Bawaked,
and Debabrata Maiti. ACS
Catal. 2023, 13, 7,
4500–4516. DOI:
10.1021/acscatal.3c00389.
C-H functionalization with
alkenes,
allenes, and
alkynes by
halfsandwich
rare-earth
catalysts.
Xuefeng Cong,
Lin Huang,
Zhaomin Hou. Tetrahedron
135 (2023)
133323. DOI:
10.1016/j.tet.2023.133323.
Au(III)
Cyclometallated
Compounds with
2-Arylpyridines
and Their
Derivatives or
Analogues: 34
Years
(1989–2022) of
NMR and Single
Crystal X-ray
Studies.
Leszek
Pazderski, and
Pavel A.
Abramov. Inorganics
2023, 11(3),
100. DOI:
10.3390/inorganics11030100.
Transition-metal-catalyzed
C–H bond activation as a sustainable
strategy for the synthesis of fluorinated
molecules: an overview. Louis
Monsigny, Floriane Doche and Tatiana Besset.
Beilstein J. Org. Chem. 2023, 19,
448–473. DOI: 10.3762/bjoc.19.35.
CATALYTIC ACTIVITY OF
C,N-PALLADACYCLES IN THE SUZUKI–MIYAURA
REACTION. M. P. Timerkaeva and O.
N. Gorunova. INEOS OPEN, 2023, 6
(5), 126–137. DOI: 10.32931/io2321r.
2022
A New
Paradigm in Pincer Iridium
Chemistry: PCN Complexes for
(De)Hydrogenation Catalysis and
Beyond. Yulei
Wang, Zhidao Huang, Guixia Liu,
and Zheng Huang. Acc. Chem.
Res. 2022, 55, 2148−2161.
DOI: 10.1021/acs.accounts.2c00311.
Palladium-Catalyzed Enantioselective
β‑C(sp3)−H Activation Reactions of
Aliphatic Acids: A Retrosynthetic
Surrogate for Enolate Alkylation and
Conjugate Addition. Erika L. Lucas,
Nelson Y. S. Lam, Zhe Zhuang, Hau
Sun Sam Chan, Daniel A.
Strassfeld, and Jin-Quan Yu. Acc.
Chem. Res. 2022, 55,
537−550. DOI:
10.1021/acs.accounts.1c00672.
Pd-catalysed
C–H functionalisation of free
carboxylic acids. Suparna
Dutta, Trisha Bhattacharya, Finn
J. Geffers, Marcel B¨urger,
Debabrata Maiti and Daniel B.
Werz. Chem. Sci., 2022,
13, 2551. DOI: 10.1039/d1sc05392b.
Multiple
annulations of inert C(sp2)–H
bonds with alkynes.
Arijit Saha, Majji Shankar,
Somratan Sau and Akhila K. Sahoo.
Chem. Commun., 2022, 58,
4561–4587. DOI:
10.1039/d2cc00172a.
Modern Palladium-Catalyzed
Transformations Involving C−H
Activation and Subsequent Annulation. Raju S. Thombal,
Peter Yuosef M. Rubio, Daesung
Lee, Debabrata Maiti, and Yong Rok
Lee. ACS Catal. 2022, 12,
5217−5230. DOI:
10.1021/acscatal.2c00813.
Asymmetric
C(sp3)–H borylation: an update.
Sumit Ghosh, Anogh Ghosh, Pranjal
Pyne and Alakananda Hajra. Org.
Biomol. Chem., 2022, 20,
4496. DOI: 10.1039/d2ob00688j.
Enantioselective
CH Functionalization Using
High-Valent Group 9 Metal
Catalysts. Tatsuhiko Yoshino. Bull. Chem. Soc. Jpn. 2022,
95, 1280–1288.
DOI:
10.1246/bcsj.20220168.
Recent Development of
Bis-Cyclometalated Chiral-at-Iridium
and Rhodium Complexes for Asymmetric
Catalysis.
Purusattam Dey,
Pramod Rai, and
Biplab Maji. ACS
Org. Inorg. Au
2022, 2, 99−125.
DOI:
10.1021/acsorginorgau.1c00032.
Free
Amine,
Hydroxyl and
Sulfhydryl
Directed C-H
Functionalization
and
Annulation:
Application to
Heterocycle
Synthesis.
Sandeep Kumar,
Akshay Kumar,
Dharminder
Sharma, and
Pralay Das. Chem.
Rec. 2022,
22, e202100171.
DOI:
10.1002/tcr.202100171.
Recent
Advances on
Phosphorescent
Cycloplatinated
Compounds
Containing
Tetradentate
Nitrogen
Ligands for
OLED
Applications.
Ferran Requena
and Margarita
Crespo. Inorg.
Chem. Res.
2022, 6, 39-47.
DOI:
10.22036/icr.2022.325512.1123.
Post‑complexation
Functionalization
of
Cyclometalated
Iridium(III)
Complexes and
Applications to
Biomedical and
Material
Sciences. Shin
Aoki, Kenta
Yokoi, Yosuke
Hisamatsu,
Chandrasekar
Balachandran,
Yuichi Tamura,
Tomohiro Tanaka.
Topics in
Current
Chemistry
(2022) 380:36.
DOI:
10.1007/s41061-022-00401-w.
2021
Transition-Metal-Catalyzed,
Coordination-Assisted
Functionalization
of
Nonactivated
C(sp3)−H Bonds. Bin Liu, Andrew M. Romine, Camille Z. Rubel, Keary M.
Engle, and
Bing-Feng Shi.
Chem. Rev.
2021, 121,
14957−15074.
DOI:
10.1021/acs.chemrev.1c00519.
Imine
as a linchpin
approach for
meta-C–H
functionalization. Sukdev Bag, Sadhan Jana, Sukumar Pradhan, Suman
Bhowmick,
Nupur Goswami,
Soumya Kumar
Sinha &
Debabrata
Maiti. NATURE
COMMUNICATIONS
(2021)
12:1393. DOI:
10.1038/s41467-021-21633-2.
2‑(Pyridin-2-yl)isopropyl (PIP) Amine: An Enabling
Directing
Group for
Divergent and
Asymmetric
Functionalization
of Unactivated
Methylene
C(sp3)−H Bonds.
Qi Zhang and
Bing-Feng Shi.
Acc.
Chem. Res.
2021, 54,
2750−2763.
DOI:
10.1021/acs.accounts.1c00168.
Strategic
evolution in
transition
metal-catalyzed
directed C–H
bond
activation and
future
directions. Supriya Rej, Amrita Das, Naoto Chatani. Coordination
Chemistry
Reviews
431 (2021)
213683. DOI:
10.1016/j.ccr.2020.213683.
Ruthenium-catalyzed
C–H bond
functionalization
in cascade and
one-pot
transformations.
Rafael
Gramage-Doria,
Christian
Bruneau.
Coordination
Chemistry
Reviews
428 (2021)
213602. DOI:
10.1016/j.ccr.2020.213602.
Cyclometalated
group-16
compounds of
palladium and
platinum:
Challenges and
opportunities.
Vimal K. Jain.
Coordination
Chemistry
Reviews
427 (2021)
213546. DOI:
10.1016/j.ccr.2020.213546.
Sulfur
stereogenic
centers in
transition-metalcatalyzed
asymmetric C–H
functionalization:
generation and
utilization.
Wentan Liu,
Jie Ke and
Chuan He. Chem.
Sci.,
2021, 12,
10972.
DOI:
10.1039/d1sc02614c.
Transition
metal
catalyzed C–H
bond
activation by
exo-metallacycle
intermediates.
Sumeet Ranjan
Sahoo,
Subhabrata
Dutta, Shaeel
A.
Al-Thabaiti,
Mohamed
Mokhtar and
Debabrata
Maiti. Chem.
Commun.,
2021, 57,
11885. DOI:
10.1039/d1cc05042g.
Deciphering
the Role of
Silver in
Palladium-Catalyzed
C−H
Functionalizations.
Trisha
Bhattacharya,
Subhabrata
Dutta, and
Debabrata
Maiti. ACS
Catal.
2021, 11,
9702−9714.
DOI:
10.1021/acscatal.1c02552.
Recent
Advances in
External-Directing-Group-Free
C−H
Functionalization
of Carboxylic
Acids without
Decarboxylation. Jayabrata Das, Dibya Kanti Mal, Suman Maji, and
Debabrata
Maiti. ACS
Catal.
2021, 11, 7,
4205–4229.
DOI:
10.1021/acscatal.1c00176.
Recent
development in
transition
metal-catalysed
C–H
olefination. Wajid Ali, Gaurav Prakash and Debabrata Maiti. Chem.
Sci.,
2021, 12,
2735. DOI:
10.1039/d0sc05555g.
Hexafluoroisopropanol:
the magical
solvent for Pd
catalyzed C–H
activation. Trisha Bhattacharya, Animesh Ghosha and Debabrata
Maiti. Chem.
Sci.,
2021, 12,
3857. DOI:
10.1039/d0sc06937j.
Site-selective
functionalization
of remote
aliphatic C–H
bonds via C–H
metallation. Qi Zhanga and Bing-Feng Shi. Chem. Sci., 2021,
12, 841. DOI:
10.1039/d0sc05944g.
Transition
Metal-Catalyzed
Intermolecular
Cascade C-H
Activation/Annulation
Processes for
the Synthesis
of Polycycles.
Liangliang
Song and Erik
V. Van der
Eycken. Chem.
Eur. J.
2021, 27, 121
– 144. DOI:
10.1002/chem.202002110.
Transition-Metal-Catalyzed
Selective
Alkynylation
of C-H Bonds.
Anjana
Suseelan
Sarala, Suman
Bhowmick,
Renato L. de
Carvalho,
Shaeel Ahmed
Al-Thabaiti,
Mohamed
Mokhtar,
Eufrânio N. da
Silva Júnior,
and Debabrata
Maiti. Adv.
Synth. Catal.
2021, 363,
4994– 5027.
DOI:
10.1002/adsc.202100992.
Recent
Advances and
Strategies for
the
Transition-Metal-Catalyzed
C-H
Functionalization
of
N-Nitrosoanilines.
Priyanka
Chaudhary,
Jeyakumar
Kandasamy,
Allan Patrick
G. Macabeo,
Ramuel John
Inductivo
Tamargo, and
Yong Rok Lee.
Adv. Synth.
Catal.
2021, 363,
2037 – 2060.
DOI:
10.1002/adsc.202001613.
Recent
advances in
the
Rh-catalyzed
cascade arene
C–H bond
activation/annulation
toward diverse
heterocyclic
compounds.
Chang Wang,
Fan Chen,
Pengcheng Qian
and Jiang
Cheng. Org.
Biomol. Chem.,
2021, 19,
1705. DOI:
10.1039/d0ob02377a.
Recent
advances in
Rh(III)/Ir(III)-catalyzed
C–H
functionalization/annulation
via carbene
migratory
insertion.
Sanjeev Kumar,
Saiprasad
Nunewar,
Srilekha
Oluguttula,
Srinivas
Nanduri and
Vinaykumar
Kanchupalli.
Org.
Biomol. Chem.,
2021, 19,
1438. DOI:
10.1039/d0ob02309d.
The
Emergence of
Palladium-Catalyzed
C(sp3)-H
Functionalization
of Free
Carboxylic
Acids.
Animesh Das
and Biplab
Maji. Chem
Asian J.
2021, 16,
397–408. DOI:
10.1002/asia.202001440.
Recent Advances in Enantioselective Direct C-H Addition
to Carbonyls
and Michael
Acceptors.
Qing Gu, Zhi-Jie Wu, and Shu-Li
You. Bull.
Chem. Soc. Jpn.
2021, 94,
641–647. DOI:
10.1246/bcsj.20200352.
C-H
Activation
Catalyzed by
Earth-Abundant
Metals.
Laurean Ilies.
Bull. Chem.
Soc. Jpn.
2021, 94,
404–417. DOI:
10.1246/bcsj.20200349.
Cyclometalated
Osmium
Compounds and
beyond:
Synthesis,
Properties,
Applications.
Ricardo
Cerón-Camacho,
Manuel A.
Roque-Ramires,
Alexander D.
Ryabov and
Ronan Le
Lagadec. Molecules
2021, 26,
1563. DOI:
10.3390/molecules26061563.
The
Exchange of
Cyclometalated
Ligands.
Alexander D.
Ryabov. Molecules
2021, 26, 210.
DOI:
10.3390/molecules26010210.
Cobalt-catalyzed
C-H bond
functionalization
using
traceless
directing
group.
Aleksandrs
Cizikovs,
Lukass
Lukasevics,
Liene
Grigorjeva. Tetrahedron
93 (2021)
132307. DOI:
10.1016/j.tet.2021.132307.
Organopalladium
Intermediates
in
Coordination-Directed
C(sp3)-H
Functionalizations.
Anjana Sarala
Suseelan,
Arnab Dutta,
Goutam Kumar
Lahiri, and
Debabrata
Maiti. Trends
in Chemistry,
2021, Vol. 3,
No. 3,
188.
2020
From Pd(OAc)2
to Chiral Catalysts: The
Discovery and Development of
Bifunctional Mono-N-Protected
Amino Acid Ligands for Diverse
C−H Functionalization
Reactions.
Qian Shao, Kevin Wu, Zhe
Zhuang, Shaoqun Qian, and
Jin-Quan Yu. Acc. Chem.
Res. 2020, 53,
833−851. DOI:
10.1021/acs.accounts.9b00621.
Transition Metal-Catalyzed
Enantioselective C-�H
Functionalization via Chiral
Transient Directing Group
Strategies. Gang Liao,
Tao Zhang, Zhi-Keng Lin, and
Bing-Feng Shi. Angew.
Chem. Int. Ed. 2020,
59, 19773–19786. DOI:
10.1002/anie.202008437.
Bidentate
Directing Groups: An Efficient
Tool in C−H Bond
Functionalization Chemistry
for the Expedient Construction
of C−C Bonds. Supriya
Rej, Yusuke Ano, and Naoto
Chatani. Chem. Rev.
2020, 120, 1788−1887. DOI:
10.1021/acs.chemrev.9b00495.
Recent
progress in phosphorescent
Ir(III) complexes for
nondoped organic
light-emitting diodes.
Coordination Chemistry
Reviews 413 (2020)
213283. DOI:
10.1016/j.ccr.2020.213283.
Recent
advances of iridium(III)
metallophosphors for
health-related
applications. Po-Yu
Ho, Cheuk-Lam Ho, Wai-Yeung
Wong. Coordination
Chemistry Reviews 413
(2020) 213267. DOI:
10.1016/j.ccr.2020.213267.
Cyclopalladated
complexes
containing an
(sp3)C–Pd bond.
Gerald C.
Dickmu, Irina
P. Smoliakova.
Coordination
Chemistry
Reviews
409 (2020)
213203. DOI:
10.1016/j.ccr.2020.213203.
Cation-controlled
luminescence behavior of anionic
cyclometalated platinum(II) complexes.
Masaki Yoshida, Masako Kato. Coordination
Chemistry Reviews 408 (2020) 213194.
DOI: 10.1016/j.ccr.2020.213194.
Palladium-catalyzed
direct asymmetric C–H bond
functionalization enabled
by the directing group
strategy. Ke Yang,
Mengjie Song, Hao Liub and
Haibo Ge. Chem. Sci.,
2020, 11, 12616. DOI:
10.1039/d0sc03052j.
Diverse
strategies for transition
metal catalyzed distal
C(sp3)–H
functionalizations.
Jayabrata Das, Srimanta Guin
and Debabrata Maiti. Chem.
Sci., 2020, 11, 10887.
DOI: 10.1039/d0sc04676k.
Steering
Site-Selectivity in
Transition Metal-Catalyzed
C-H Bond
Functionalization: the
Challenge of Benzanilides.
Rafael Gramage-Doria. Chem.
Eur. J. 2020, 26, 9688
– 9709. DOI:
10.1002/chem.202000672.
Diverse
Approaches for
Enantioselective C-H
Functionalization
Reactions Using Group 9
CpxMIII Catalysts.
Tatsuhiko Yoshino, Shun
Satake, and Shigeki
Matsunaga. Chem. Eur. J.
2020, 26, 7346 – 7357. DOI:
10.1002/chem.201905417.
Recent
Advancements on
Transition-Metal-Catalyzed,
Chelation-Induced
ortho-Hydroxylation of
Arenes. Zafar
Iqbal, Asha Joshi, and Saroj
Ranjan Dea. Adv. Synth.
Catal. 2020, 362,
5301– 5351. DOI:
10.1002/adsc.202000762.
Propargylic Alcohols as Coupling
Partners in
Transition-Metal-Catalyzed
Arene C-H
Activation.
Gadi Ranjith
Kumar, Manda
Rajesh, Shuimu
Lin, and
Shouping Liua.
Adv. Synth.
Catal.
2020, 362,
5238– 5256.
DOI:
10.1002/adsc.202000896.
Site-Selective
C(sp3)-H and C(sp2)-H
Functionalization of
Amines Using a
Directing-Group-Guided
Strategy. Mohit
Kapoor, Adhish Singh, Kirti
Sharma, and Ming Hua Hsu. Adv.
Synth. Catal. 2020,
362, 4513– 4542. DOI:
10.1002/adsc.202000689.
Recent
Advances in
Transition-Metal-Catalyzed
Oxidative Annulations to
Benzazepines and
Benzodiazepines. Álvaro
Velasco-Rubio, Jesús A.
Varela,a and Carlos Saá.
Adv. Synth. Catal.
2020, 362, 4861– 4875.
DOI:
10.1002/adsc.202000808.
C–H Functionalization of
Aromatic Amides.
Quan Zheng, Chen-Fu Liu, Jie
Chen, and Guo-Wu Rao. Adv.
Synth. Catal. 2020,
362, 1406 – 1446. DOI:
10.1002/adsc.201901158.
Cobalt-catalyzed
carbonylation of the C–H
bond. Lukass
Lukasevics and Liene
Grigorjeva. Org. Biomol.
Chem., 2020, 18, 7460.
DOI: 10.1039/d0ob01633k.
Transient
imine directing groups for
the C–H functionalisation
of aldehydes, ketones and
amines: an update
2018–2020. Joe I.
Higham and James A. Bull. Org.
Biomol. Chem., 2020,
18, 7291. DOI:
10.1039/d0ob01587c.
C-H
Functionalization of Biaryl
Compounds. Ju Wang,
Chen-Fu Liu, Quan Zheng, and
Guo-Wu Rao. Eur. J.
Org. Chem. 2020,
3737–3765. DOI:
10.1002/ejoc.202000071.
Hybrid
POCZP Aryl Pincer Metal
Complexes and their Catalytic
Applications.
Hugo Valdés, Ernesto
Rufino-Felipe, Gerard van Koten,
and David Morales-Morales. Eur.
J. Inorg. Chem. 2020,
4418–4424. DOI:
10.1002/ejic.202000817.
Phosphorescent
Iridium(III) Complexes for
Anticancer Applications.
Ruilin Guan, Lina Xie, Liangnian
Ji, and Hui Chao. Eur. J.
Inorg. Chem. 2020,
3978–3986. DOI:
10.1002/ejic.202000754.
New
Strategy for Catalytic
Oxidative CH
Functionalization: Efficient
Combination of
Transition-metal Catalyst and
Electrochemical Oxidation.
Fumitoshi Kakiuchi and Takuya
Kochi. Chem. Lett. 2020,
49, 1256–1269. DOI:
10.1246/cl.200475.
Transient
Directing Group-Assisted C─H
Bond Functionalization of
Aliphatic Amines: Strategies
for Efficiency and
Site-Selectivity. Hyeonbin Ha, Jooyeon Lee, Myung Hwan Park, Byunghyuck
Jung, and Min
Kim. Bull.
Korean Chem.
Soc. 2020,
Vol. 41,
582–587. DOI:
10.1002/bkcs.12044.
Recent
advances in
Palladium(II)-catalyzed
activation of aromatic ring
C–H bonds. Yin-ling
Yun, Jie Yang, Yu-hang Miao, Jie
Sun, Xiao-jing Wang. Journal
of Saudi Chemical Society
(2020) 24, 151–185. DOI:
10.1016/j.jscs.2020.01.004.
2019
Palladacycles. Catalysis and
Beyond. A. Kapdi, D. Maiti (Eds.),
Elsevier, Amsterdam, 2019. DOI:
10.1016/B978-0-12-815505-9.00002-0.Asymmetric Photocatalysis with
Bis-cyclometalated Rhodium Complexes. Xiaoqiang Huang and Eric Meggers.
Acc. Chem. Res. 2019, 52, 833−847. DOI:
10.1021/acs.accounts.9b00028.
Cyclometallated tridentate
platinum(II) arylacetylide complexes: old wine in
new bottles. Ashanul Haque, Linli Xu, Rayya
A. Al-Balushi, Mohammed K. Al-Suti, Rashid Ilmi,
Zeling Guo, Muhammad S. Khan, Wai-Yeung Wong and
Paul R. Raithby. Chem. Soc. Rev., 2019, 48,
5547. DOI: 10.1039/c8cs00620b.
Palladium-Catalyzed C(sp3)–H
Bond Functionalization of Aliphatic Amines.
Chuan He, William G. Whitehurst, and Matthew J.
Gaunt. Chem 5, 1031–1058, 2019. DOI:
10.1016/j.chempr.2018.12.017.
Recent advances in
cobalt-catalysed C–H functionalizations.
Alessio Baccalini, Stefania Vergura, Pravas Dolui,
Giuseppe Zanoni and Debabrata Maiti. Org.
Biomol. Chem., 2019, 17, 10119. DOI:
10.1039/c9ob01994d.
Carbon Dioxide-Driven
Palladium-Catalyzed C–H Activation of Amines: A
Unified Approach for the Arylation of Aliphatic
and Aromatic Primary and Secondary Amines.
Mohit Kapoor, Pratibha Chand-Thakuri, Justin M.
Maxwell, Daniel Liu, Hanyang Zhou Michael C. Young.
Synlett 2019, 30, 519–524. DOI:
10.1055/s-0037-1611381.
Recent Applications of
α-Carbonyl Sulfoxonium Ylides in Rhodium and
Iridium-Catalyzed C–H Functionalizations.
Xiaopeng Wu, Song Sun, Jin-Tao Yu, Jiang Cheng. Synlett
2019, 30, 21–29. DOI: 10.1055/s-0037-1610263.
Chiral palladium pincer
complexes for asymmetric catalytic reactions.
Jin-Kui Liu, Jun-Fang Gong and Mao-Ping Song. Org.
Biomol. Chem., 2019, 17, 6069. DOI:
10.1039/c9ob00401g.
Transient Ligand-Enabled
Transition Metal-Catalyzed C-H Functionalization.
Ben Niu, Ke Yang, Brianna Lawrence, and Haibo Ge. ChemSusChem
2019, 12, 2955 – 2969. DOI: 10.1002/cssc.201900151.
Cross-coupling reactions
catalysed by palladium pincer complexes. A review
of recent advances. Lucero
Gonz�alez-Sebasti�an, David Morales-Morales. Journal
of Organometallic Chemistry 893 (2019) 39-51.
DOI: 10.1016/j.jorganchem.2019.04.021.
2018
Enantioselective
C(sp3)–H bond activation by
chiral transition metal
catalysts. Tyler G.
Saint-Denis, Ru-Yi Zhu, Gang
Chen, Qing-Feng Wu, Jin-Quan
Yu. Science 359, 759
(2018). DOI:
10.1126/science.aao4798.
sp3 C–H activation via exo-type
directing groups. Yan Xu and
Guangbin Dong. Chem. Sci.,
2018, 9, 1424. DOI:
10.1039/c7sc04768a.
A comprehensive
overview of directing groups applied
in metal-catalysed C–H
functionalisation chemistry.
Carlo Sambiagio, David Schönbauer, Remi
Blieck, Toan Dao-Huy, Gerit Pototschnig,
Patricia Schaaf, Thomas Wiesinger,
Muhammad Farooq Zia, Joanna
Wencel-Delord, Tatiana Besset, Bert U.
W. Maes and Michael Schnürch. Chem.
Soc. Rev., 2018, 47, 6603. DOI:
10.1039/c8cs00201k.
Cyclometalated
iridium(III) complexes for life
science. Chiara Caporale,
Massimiliano Massi. Coordination
Chemistry Reviews 363 (2018)
71–91. DOI: 10.1016/j.ccr.2018.02.006.
Cyclometalated
iridium(III) luminescent complexes in
therapy and phototherapy. Ana
Zamora, Gloria Vigueras, Venancio
Rodríguez, M. Dolores Santana, José
Ruiz. Coordination Chemistry Reviews
360 (2018) 34–76. DOI:
10.1016/j.ccr.2018.01.010.
Transient imines
as ‘next generation’ directing groups
for the catalytic functionalisation of
C–H bonds in a single operation.
Sahra St John-Campbell and James A.
Bull. Org. Biomol. Chem., 2018,
16, 4582. DOI: 10.1039/c8ob00926k.
Transient
Directing Groups for Transformative
C–H Activation by Synergistic Metal
Catalysis. Parthasarathy
Gandeepan and Lutz Ackermann. Chem
4, 199–222, 2018. DOI:
10.1016/j.chempr.2017.11.002.
Phosphorescent
iridium(III) complexes: a versatile
tool for biosensing and photodynamic
therapy. Tianci Huang, Qi Yu,
Shujuan Liu, Wei Huang and Qiang Zhao. Dalton
Trans., 2018, 47, 7628. DOI:
10.1039/c8dt00887f.
The Direct
Pd-Catalyzed β-C(sp3)–H Activation of
Carboxylic Acids. A.
Uttry, M. van Gemmeren. Synlett
2018, 29, 1937–1943. DOI:
10.1055/s-0037-1610150.
Recent advances in
N-heterocycles synthesis through
catalytic C�H functionalization of
azobenzenes. Neeraj Kumar
Mishra, Jihye Park, Hyunjung Oh, Sang
Hoon Han, In Su Kim. Tetrahedron
74 (2018) 6769-6794. DOI:
10.1016/j.tet.2018.10.010.
Advances in
Development of C–H
Activation/Functionalization Using a
Catalytic Directing Group. Omer
K. Rasheed and Bing Sun. ChemistrySelect
2018, 3, 5689 – 5708. DOI:
10.1002/slct.201801097.
Combining transition
metals and transient directing groups for C–H
functionalizations. Trisha Bhattacharya,
Sandeep Pimparkara and Debabrata Maiti. RSC Adv.,
2018, 8, 19456-19464. DOI: 10.1039/c8ra03230k.
From Chemical
Serendipity to Translational
Chemistry: New Findings in the
Reactivity of Palladacycles. Adolfo
Fernández-Figueiras, Fáima
Lucio-Martínez, Paula
Munín-Cruz, Juan M. Ortigueira,
Paula Polo-Ces, Francisco
Reigosa, M. Teresa Pereira, and
José M. Vila. ChemistryOpen
2018, 7, 754 – 763. DOI:
10.1002/open.201800036.
Applications of cyclometalation
reaction five-membered ring products. Iwao
Omae. Journal of Organometallic Chemistry 869
(2018) 88-105. DOI: 10.1016/j.ccr.2014.07.019.
2017
Palladium-Catalyzed
Transformations
of Alkyl C−H
Bonds.
Jian He,
Masayuki Wasa,
Kelvin S. L.
Chan, Qian
Shao, and
Jin-Quan Yu. Chem.
Rev. 2017,
117,
8754−8786.
DOI:
10.1021/acs.chemrev.6b00622.
Over
the LEC
rainbow:
Colour and
stability
tuning of
cyclometallated
iridium(III)
complexes in
light-emitting
electrochemical
cells.
Catherine E.
Housecroft,
Edwin C.
Constable. Coordination
Chemistry
Reviews
350 (2017)
155–177. DOI:
10.1016/j.ccr.2017.06.016.
Cyclometalated
Gold(III)
Complexes:
Synthesis,
Reactivity,
and
Physicochemical
Properties. Roopender Kumar and Cristina Nevado. Angew. Chem.
Int. Ed.
2017, 56, 1994
–2015. DOI:
10.1002/anie.201607225.
Iridacycles
for
hydrogenation
and
dehydrogenation
reactions.
Chao Wanga and
Jianliang
Xiao. Chem.
Commun.,
2017, 53,
3399. DOI:
10.1039/c7cc01103b.
Luminescent
chemosensors
by using
cyclometalated
iridium(III)
complexes and
their
applications.
Dik-Lung Ma,
Sheng Lin,a
Wanhe Wang,
Chao Yangb and
Chung-Hang
Leung. Chem.
Sci.,
2017, 8, 878.
DOI:
10.1039/c6sc04175b.
Transition
Metal-Catalyzed
Reactions
Involving
Oximes.
Jun Li, Yitian
Hu, Daopeng
Zhang, Qing
Liu, Yunhui
Dong, and Hui
Liu. Adv.
Synth. Catal.
2017, 359, 710
– 771.
DOI:
10.1002/adsc.201600807.
The
Transient
Directing
Group
Strategy: A
New Trend in
Transition-
Metal-Catalyzed
C–H Bond
Functionalization.
Qun Zhao
Thomas Poisson
Xavier
Pannecoucke
Tatiana
Besset. Synthesis
2017, 49,
4808–4826.
DOI:
10.1055/s-0036-1590878.
The
Fate of
Cycloruthenated
Compounds:
From C–H
Activation to
Innovative
Anticancer
Therapy.
Christian
Gaiddon and
Michel Pfeffer.
Eur.
J. Inorg.
Chem. 2017,
1639-1654.
DOI:
10.1002/ejic.201601216.
Aromatic para-functionalized NCN pincer compounds.
Hugo Vald�es,
Lucero
Gonz�alez-Sebasti�an,
David
Morales-Morales.
Journal of
Organometallic
Chemistry
845 (2017)
229-257. DOI:
10.1016/j.jorganchem.2017.05.034.
Application
of the
five-membered
ring products
of
cyclometalation
reactions for
hydrogen
production. Iwao Omae. Journal of Organometallic
Chemistry
841 (2017)
12-30. DOI:
10.1016/j.jorganchem.2017.04.010.
Applications of six-membered ring products from
cyclometalation
reactions. Iwao Omae. Journal of Organometallic
Chemistry
848 (2017)
184-195. DOI:
10.1016/j.jorganchem.2017.07.035.
2016
Palladium(II)-Catalyzed
Enantioselective
Reactions
Using COP
Catalysts. Jeffrey S. Cannon and Larry E. Overman.
Acc. Chem.
Res. 2016,
49, 2220-2231.
DOI:
10.1021/acs.accounts.6b00398.
Merging
Visible Light Photoredox
Catalysis with Metal
Catalyzed C-H Activations:
On the Role of Oxygen and
Superoxide Ions as
Oxidants. David
C. Fabry and Magnus
Rueping. Acc. Chem.
Res. 2016, 49,
1969-1979. DOI:
10.1021/acs.accounts.6b00275.
Syntheses
and Transformations of
α-Amino Acids via
Palladium-Catalyzed
Auxiliary-Directed sp3
C-H Functionalization.
Gang He, Bo Wang,
William A. Nack, and
Gong Chen. Acc.
Chem. Res. 2016,
49, 635-645. DOI:
10.1021/acs.accounts.6b00022.
A Simple and Versatile
Amide Directing Group for
C-H
Functionalizations. Ru-Yi
Zhu, Marcus E. Farmer,
Yan-Qiao Chen, and
Jin-Quan Yu. Angew.
Chem. Int. Ed.
2016, 55, 10578-10599.
DOI:
10.1002/anie.201600791.
Highly
phosphorescent
platinum(II) emitters:
photophysics, materials
and biological
applications. Kai
Li, Glenna So Ming
Tong, Qingyun
Wan, Gang
Cheng, Wai-Yip
Tong, Wai-Hung
Ang, Wai-Lun
Kwong and
Chi-Ming. Chem. Sci.,
2016, 7, 1653. DOI:
10.1039/c5sc03766b.
Electronic coupling in
cyclometalated ruthenium
complexes. Yu-Wu
Zhong, Zhong-Liang Gong,
Jiang-Yang Shao,
Jiannian Yao. Coordination
Chemistry Reviews
312 (2016) 22-40. DOI:
10.1016/j.ccr.2016.01.002.
Application of the
five-membered ring blue
light-emitting iridium
products of
cyclometalation reactions
as OLEDs. Iwao
Omae. Coordination
Chemistry Reviews
310 (2016) 154-169. DOI:
10.1016/j.ccr.2015.08.009.
Photoredox
Catalysis in Organic
Chemistry.
Megan H. Shaw, Jack
Twilton, and David W. C.
MacMillan. Megan H. J.
Org. Chem. 2016,
81, 6898-6926. DOI:
10.1021/acs.joc.6b01449.
Recent
Progress in
Palladium-Catalyzed
Asymmetric
Hydrophosphination.
Sumod A. Pullarkat. Synthesis
2016, 48, 493–503. DOI:
10.1055/s-0035-1560556.
Non-precious metal
complexes with an anionic
PCP pincer architecture.
Sathiyamoorthy Murugesan
and Karl Kirchner. Dalton
Trans., 2016, 45,
416. DOI:
10.1039/c5dt03778f.
Ruthenium-catalyzed
direct arylations
with aryl chlorides.
Gao-Feng Zha, Hua-Li
Qin and Eric Assen B.
Kantchev. RSC Adv.,
2016, 6, 30875–30885.
DOI:
10.1039/c6ra02742c.
Application
of five-membered ring
products of
cyclometalation reactions
as sensing materials in
sensing devices. Iwao
Omae. Journal of
Organometallic
Chemistry 823
(2016) 50-75. DOI:
10.1016/j.jorganchem.2016.09.008.
Ru-catalysed
C–H functionalisations
as a tool for
selective organic
synthesis. Sara
Ruiz, Pedro Villuendas,
Esteban P.
Urriolabeitia. Tetrahedron
Letters 57 (2016)
3413–3432. DOI:
10.1016/j.tetlet.2016.06.117.
Synthesis,
Structure and
Reactivity of
Cyclometalated
Nickel(II) Complexes:
A Review and
Perspective.
Axel Klein, Aaron
Sandleben, Nicolas Vogt.
Proc. Natl. Acad.
Sci., India, Sect. A
Phys. Sci.
(October–December 2016)
86(4):533–549. DOI:
10.1007/s40010-016-0289-6.
2015
Luminescent Rhenium(I) and
Iridium(III) Polypyridine
Complexes as Biological
Probes, Imaging Reagents,
and Photocytotoxic Agents.
Kenneth Kam-Wing Lo. Acc.
Chem. Res. 2015,
48, 2985-2995. DOI:
10.1021/acs.accounts.5b00211.
Chiral
Cyclopentadienyls:
Enabling Ligands for
Asymmetric
Rh(III)-Catalyzed C-H
Functionalizations. Baihua
Ye and Nicolai Cramer. Acc.
Chem. Res. 2015,
48, 1308-1318. DOI:
10.1021/acs.accounts.5b00092.
Bidentate,
Monoanionic
Auxiliary-Directed
Functionalization of
Carbon-Hydrogen Bonds.
Olafs Daugulis, James
Roane, and Ly Dieu Tran.
Acc.
Chem. Res. 2015,
48, 1053-1064. DOI:
10.1021/ar5004626.
Transition-Metal-Catalyzed
C-N Bond Forming Reactions
Using Organic Azides as
the Nitrogen Source: A
Journey for the Mild and
Versatile C−H Amination.
Kwangmin Shin, Hyunwoo
Kim, and Sukbok Chang. Acc.
Chem. Res. 2015,
48, 1040-1052. DOI:
10.1021/acs.accounts.5b00020.
Substrate
Activation Strategies in
Rhodium(III)-Catalyzed
Selective
Functionalization of
Arenes.
Guoyong Song, and
Xingwei Li. Acc.
Chem. Res. 2015,
48, 1007-1020. DOI:
10.1021/acs.accounts.5b00020.
Redox-Active
NOx Ligands in
Palladium-Mediated
Processes. Ian J.
S. Fairlamb. Angew.
Chem. Int. Ed.
2015, 54, 10415-10427.
DOI:
10.1002/anie.201411487.
Carbon-hydrogen
(C-H) bond activation at
PdIV: a Frontier in C-H
functionalization
catalysis. Joseph
J. Topczewski and
Melanie S. Sanford. Chem.
Sci., 2015, 6, 70.
DOI: 10.1039/c4sc02591a.
C-H bond
functionalization based on
metal carbene migratory
insertion.
Fangdong Hu, Ying Xia,
Chen Ma, Yan Zhang and
Jianbo Wang. Chem.
Commun., 2015, 51,
7986. DOI:
10.1039/c5cc00497g.
2‑Aminobiphenyl
Palladacycles: The
“Most Powerful”
Precatalysts in C−C
and C−Heteroatom
Cross-Couplings.
Alexandre Bruneau,
Maxime Roche, Mouad
Alami, and Samir
Messaoudi. ACS
Catal. 2015, 5,
1386−1396. DOI:
10.1021/cs502011x.
Recent
advances in transition
metal-catalyzed C-H bond
functionalization of
ferrocene derivatives. Luis
A. López and Enol López.
Dalton Trans.,
2015, 44, 10128. DOI:
10.1039/c5dt01373a.
FIrpic:
archetypal blue phosphorescent
emitter for
electroluminescence.
Etienne Baranoff and Basile F.
E. Curchod. Dalton Trans.,
2015, 44, 8318. DOI:
10.1039/c4dt02991g.
Recent
advances in the
ruthenium-catalyzed
hydroarylation of alkynes
with aromatics: synthesis
of trisubstituted alkenes.
Rajendran Manikandan and
Masilamani Jeganmohan. Org.
Biomol. Chem.,
2015, 13, 10420. DOI:
10.1039/c5ob01472g.
Activation
of C-H bonds of
thiosemicarbazones by
transition metals:
synthesis, structures and
importance of
cyclometallated compounds. Tarlok
S. Lobana. RSC Adv.,
2015, 5, 37231. DOI:
10.1039/c5ra03333k.
Diastereoselective
Substrate-Controlled
Transition-Metal-Catalyzed
C-H Activation: An Old
Solution to a Modern
Synthetic Challenge. Joanna
Wencel-Delord, Françoise
Colobert. Synlett
2015, 26, 2644-2658.
DOI:
10.1055/s-0035-1560811.
Syntheses
of Nitrogen-Containing
Heterocycles via
Palladium-Catalyzed
Intramolecular
Dehydrogenative C-H
Amination.
William A. Nack, Gong
Chen. Synlett
2015, 26, 2505-2511.
DOI:
10.1055/s-0034-1381051.
Recent
Development in
N-Auxilixary-Assisted
Intramolecular Amination
for Amine Substrates. Chao
Wang Jian Han Yingsheng
Zhao. Synlett
2015, 26, 997-1002. DOI:
10.1055/s-0034-1380167.
Nickel
Catalysts/N,N’-Bidentate
Directing Groups: An
Excellent Partnership in
Directed C-H Activation
Reactions. Luis
C. Misal Castro and Naoto Chatani. Chem. Lett.
2015, 44, 410-421. DOI: 10.1246/cl.150024.
2014
Pincer and
Pincer-Type Complexes
Applications in Organic
Synthesis and Catalysis.
Edited
by Kalman J. Szabo and Ola
F. Wendt, Wiley-VCH,
Weinheim 2014.
Cyclometalation
Reactions: Five-Membered Ring
Products As Universal Reagents.
Omae,
Iwao. Published by Springer
Verlag, 2014.
Organoiridium Complexes: Anticancer
Agents and Catalysts. Zhe Liu
and Peter J. Sadler. Acc. Chem. Res. 2014,
47, 1174-1185.
Low-Valent
Cobalt Catalysis: New Opportunities for C-H
Functionalization. Ke Gao and
Naohiko Yoshikai. Acc. Chem. Res. 2014,
47, 1208-1219.
Carboxylate-Assisted
Ruthenium-Catalyzed Alkyne Annulations by
C-H/Het-H Bond Functionalizations. LUTZ ACKERMANN. Vol. 47, No. 2,
2014, 281-295, ACCOUNTS OF CHEMICAL RESEARCH.
Catalytic Enantioselective C�H
Functionalization of Alcohols by Redox-Triggered
Carbonyl Addition: Borrowing Hydrogen, Returning
Carbon. John M. Ketcham, Inji
Shin, T. Patrick Montgomery, and Michael J.
Krische. Angew. Chem. Int. Ed. 2014, 53,
9142-9150.
Functionalization
of Remote C-H Bonds: Expanding the Frontier. Johannes Schranck, Anis Tlili, and
Matthias Beller. Angew. Chem. Int. Ed.
2014, 53, 9426-9428.
Yellow/orange emissive heavy-metal
complexes as phosphors in monochromatic and white
organic light-emitting devices. Cong Fan and Chuluo Yang. Chem.
Soc. Rev., 2014, 43, 6439.
Anti-cancer
palladium complexes: a focus on PdX2L2,
palladacycles and related complexes. Anant R. Kapdi and Ian J. S.
Fairlamb. Chem. Soc. Rev., 2014, 43, 4751.
Functional group directed C-H
borylation. A. Ros,R.
Fernández and J. M. Lassaletta. Chem. Soc.
Rev., 2014, 43, 3229.
Cyclometalated
[Cp*M(C^X)] (M = Ir, Rh; X = N, C, O, P)
complexes. Ying-Feng Han
and Guo-Xin Jin. Chem. Soc. Rev., 2014,
43, 2799-2823.
Oxidative C–H amination reactions.
Marie-Laure Louillat and
Frederic W. Patureau. Chem. Soc. Rev.,
2014, 43, 901-910.
Kinetico-mechanistic studies on C-X
(X = H, F, Cl, Br, I) bond activation reactions on
organoplatinum(II) complexes. Margarita
Crespo, Manuel Martínez, S. Masoud Nabavizadeh,
Mehdi Rashidi. Coordination Chemistry Reviews
279 (2014) 115-140.
Applications of
five-membered ring products of cyclometalation
reactions as anticancer agents.
Iwao Omae. Coordination Chemistry Reviews
280 (2014) 84-95.
A golden
future in medicinal inorganic chemistry: the
promise of anticancer gold organometallic
compounds. Benoît
Bertranda, and Angela Casini. Dalton Trans.,
2014, 43, 4209.
The Applications
of Palladacycles as Transition-Metal
Catalysts in Organic Synthesis. Dong-Liang
Mo,Ting-Ke Zhang, Guang-Cun Ge,
Xiao-Jun Huang, Chang-Hua Ding,
Li-Xin Dai, Xue-Long Hou. SYNLETT
2014, 25, 2686-2702.
Palladium-Catalyzed
Decarboxylative Cross-Coupling of
α-Oxocarboxylic Acids and Their
Derivatives. Jinmin
Miao, Haibo Ge. Synlett
2014; 25(07): 911-919.
Formal SN-Type Reactions in Rhodium(III)-Catalyzed
C-H Bond Activation. Nadine
Kuhl, Nils Schrçder, and Frank Glorius. Adv.
Synth. Catal. 2014, 356, 1443-1460.
Carboxylate-Directed C�H Functionalization. Guangfa Shi and Yanghui Zhang. Adv.
Synth. Catal. 2014, 356, 1419-1442.
Palladium-Catalyzed
C-F Bond Formation via Directed C-H Activation. Yan Li, Yun Wu, Guang-Shui Li, and
Xi-Sheng Wang. Adv. Synth. Catal.
2014, 356, 1412-1418.
Palladium-Catalysed,
Directed C-H Coupling with Organometallics. Ramesh Giri, Surendra Thapa, and
Arjun Kafle. Adv. Synth. Catal. 2014, 356,
1395-1411. DOI: 10.1002/adsc.201400105.
Recent advances in directed
C–H functionalizations using monodentate
nitrogen-based directing groups. Min
Zhang, Yuanfei Zhang, Xiaoming Jie, Huaiqing Zhao,
Gang Li and Weiping Su. Org. Chem. Front., 2014,
1, 843–895. DOI: 10.1039/c4qo00068d.
Isoquinoline
skeleton synthesis via
chelation-assisted C-H activation. Ruoyu He, Zhi-Tang
Huang, Qi-Yu Zheng, Congyang Wang.
Tetrahedron Letters 55
(2014) 5705-5713.
Red to near-infrared organometallic phosphorescent
dyes for OLED applications. Cheuk-Lam
Ho, Hua Li, Wai-Yeung Wong. Journal of
Organometallic Chemistry 751 (2014)
261-285.
Synthesis, photophysical and
electroluminescent properties of green organic light
emitting devices based on novel iridium complexes
containing benzimidazole ligands. Jayaraman Jayabharathi,
Karunamoorthy Jayamoorthy, Venugopal
Thanikachalam. Journal of Organometallic
Chemistry 761 (2014) 74-83.
Alcohols or
Masked Alcohols as Directing Groups for C-H Bond
Functionalization. Fanyang
Mo, John R. Tabor, and Guangbin Dong. Chem.
Lett. 2014, 43, 264–271.
Diarylplatinum(II) Compounds as
Versatile Metallating Agents in the Synthesis of
Cyclometallated Platinum Compounds with N-Donor
Ligands. Margarita Crespo. Inorganics
2014, 2, 115-131.
2013
Catalytic Functionalization of
C(sp2)-H and C(sp3)-H Bonds by Using Bidentate
Directing Groups. Guy
Rouquet and Naoto Chatani. Angew. Chem. Int.
Ed. 2013, 52, 11726-11743.
sp2 C–H bond activation in water
and catalytic crosscoupling reactions. Bin Li and Pierre H. Dixneuf. Chem.
Soc. Rev., 2013, 42, 5744.
Anticancer cyclometalated
complexes of platinum group metals and gold.
Natalia Cutillas, Gorakh S. Yellol, Concepción de
Haro, Consuelo Vicente, Venancio Rodríguez, José
Ruiz. Coordination Chemistry Reviews 257
(2013) 2784-2797.
Bioactive
iridium and rhodium complexes as therapeutic agents.
Chung-Hang Leung, Hai-Jing
Zhong, Daniel Shiu-Hin Chan, Dik-Lung Ma.
Coordination Chemistry Reviews 257 (2013)
1764-1776.
Asymmetric C(sp2)-H Activation. Joanna Wencel-Delord and Françoise
Colobert. Chem. Eur. J. 2013, 19,
14010-14017.
Developing Ligands for
Palladium(II)-Catalyzed C-H Functionalization:
Intimate Dialogue between Ligand and Substrate.
Keary M. Engle and Jin-Quan Yu. J. Org. Chem.
2013, 78, 8927-8955.
Pd-Catalyzed sp2 C-H Hydroxylation with TFA/TFAA via
Weak Coordinations. Yu Rao. SYNLETT
2013, 24, 2472-2476.
Manganese-Mediated C-C Bond
Formation via C-H Activation: From Stoichiometry to
Catalysis. Congyang Wang. SYNLETT
2013, 24, 1606-1613.
Transition-metal-catalyzed additions
of C-H bonds to C-X (X = N, O) multiple bonds via
C–H bond activation. Guobing
Yan, Xiangmei Wu and Minghua Yang. Org.
Biomol. Chem., 2013, 11, 5558.
2012
Alkane Metathesis by
Tandem Alkane-Dehydrogenation Olefin-Metathesis
Catalysis and Related Chemistry. MICHAEL C. HAIBACH, SABUJ KUNDU,
MAURICE BROOKHART, AND ALAN S. GOLDMAN. Vol. 45,
No. 6, 2012, 947-958, ACCOUNTS OF CHEMICAL
RESEARCH.
Controlling Site
Selectivity in Palladium-Catalyzed C�H Bond
Functionalization. SHARON R.
NEUFELDT AND MELANIE S. SANFORD. ACCOUNTS OF
CHEMICAL RESEARCH, 936-946, 2012, Vol. 45,
No. 6.
Bimetallic Redox
Synergy in Oxidative Palladium Catalysis. DAVID C. POWERS AND TOBIAS RITTER.
ACCOUNTS OF CHEMICAL RESEARCH, 840-850,
2012, Vol. 45, No. 6.
Rhodium Catalyzed
Chelation-Assisted C-H Bond Functionalization
Reactions. DENISE A. COLBY,
ANDY S. TSAI, ROBERT G. BERGMAN, AND JONATHAN A.
ELLMAN. ACCOUNTS OF CHEMICAL RESEARCH,
814-825, 2012, Vol. 45, No. 6.
Weak Coordination as
a Powerful Means for Developing Broadly Useful C-H
Functionalization Reactions. KEARY
M. ENGLE, TIAN-SHENG MEI, MASAYUKI WASA, AND
JIN-QUAN YU. ACCOUNTS OF CHEMICAL RESEARCH,
788-802, 2012, Vol. 45, No. 6.
Ruthenium(II)-Catalyzed
C−H Bond Activation and Functionalization. Percia Beatrice Arockiam,
Christian Bruneau, and Pierre H. Dixneuf. Chem.
Rev. 2012, 112, 5879-5918.
From C(sp2)-H to
C(sp3)-H: systematic studies on transition
metal-catalyzed oxidative C-C formation. Bi-Jie Li and Zhang-Jie Shi.
Chem. Soc. Rev., 2012, 41, 5588–5598.
C-C, C-O and C-N bond formation
via rhodium(III)-catalyzed oxidative C-H
activation. Guoyong Song, Fen Wang and
Xingwei Li. Chem. Soc. Rev., 2012, 41,
3651-3678.
Cyclometalated
ruthenium chromophores for the dye-sensitized solar
cell. Paolo G. Bomben,
Kiyoshi C.D. Robson, Bryan D. Koivisto, Curtis P.
Berlinguette. Coordination Chemistry Reviews
256 (2012) 1438-1450.
Designing
organometallic compounds for catalysis and therapy.
Anna Louisa Noffke, Abraha
Habtemariam, Ana M. Pizarro and Peter J. Sadler. Chem.
Commun., 2012, 48, 5219-5246.
Fluorine in
Cyclometalated Platinum Compounds. Margarita Crespo. Organometallics
2012, 31, 1216-1234.
Kinetico-mechanistic
studies of cyclometalating C–H bond activation
reactions on Pd(II) and Rh(II) centres: The
importance of non-innocent acidic solvents in the
process. Jaume Granell and
Manuel Martínez. Dalton Trans., 2012, 41,
11243.
Synthetic Utility of
Chiral Bis(oxazolinyl)phenyl Transition-Metal
Complexes. Jun-ichi, Ito
Hisao Nishiyama. SYNLETT 2012, 23,
509–523.
Challenges in C-C
bond formation through direct transformations of sp2
C-H bonds. Da-Gang Yu, Bi-Jie
Li, Zhang-Jie Shi. Tetrahedron 68 (2012)
5130-5136.
Organometallic complexes of transition metals in
luminescent cell imaging applications. Flora L. Thorp-Greenwood, Rebeca
G. Balasingham, Michael P. Coogan. Journal of
Organometallic Chemistry 714 (2012) 12-21.
Rh Redox Relay Catalysts
for Synthesis of Azaheterocycles via C-H
Functionalization. Shunsuke Chiba. Chem.
Lett. 2012, 41, 1554-1559.
Development
of Novel and Highly Efficient Methods to Construct
Carbon-Carbon Bonds Using Group 7 Transition-Metal
Catalysts. Yoichiro Kuninobu,
and Kazuhiko Takai. Bull. Chem. Soc. Jpn.
Vol. 85, No. 6, 656-671 (2012).
Cyclometallation
of Heterocycles: A Reliable Strategy for Selective
Functionalization. Luciano
Cuesta and Esteban P. Urriolabeitia. Comments
on Inorganic Chemistry, 33: 55-85, 2012.
2011
Catalysis by
Palladium Pincer Complexes. Nicklas Selander and Kámán J.
Szabó. Chem.
Rev. 2011, 111, 2048-2076.
Dehydrogenation and
Related Reactions Catalyzed by Iridium Pincer
Complexes. Jongwook Choi, Amy
H. Roy MacArthur, Maurice Brookhart, and Alan S.
Goldman. Chem. Rev. 2011, 111, 1761-1779.
Catalytic
Dehydrogenative Cross-Coupling: Forming
Carbon-Carbon Bonds by Oxidizing Two Carbon-Hydrogen
Bonds. Charles S. Yeung and
Vy M. Dong. Chem. Rev. 2011, 111,
1215-1292.
Bystanding F+
Oxidants Enable Selective Reductive Elimination from
High-Valent Metal Centers in Catalysis. Keary M. Engle, Tian-Sheng Mei,
Xisheng Wang, and Jin-Quan Yu. Angew. Chem.
Int. Ed. 2011, 50, 1478-1491.
Phosphorescent
heavy-metal complexes for bioimaging. Qiang Zhao, Chunhui
Huang and Fuyou Li. Chem. Soc. Rev., 2011, 40,
2508-2524.
Harvesting
luminescence via harnessing the photophysical
properties of transition metal complexes. Pi-Tai Choua, Yun
Chib, Min-Wen Chunga, Chao-Chen Lina. Coordination
Chemistry Reviews 255 (2011) 2653- 2665.
The triplet state of
organo-transition metal compounds. Triplet harvesting
and singlet harvesting for efficient OLEDs.
Hartmut Yersin, Andreas F. Rausch, Rafał
Czerwieniec, Thomas Hofbeck, Tobias Fischer. Coordination
Chemistry Reviews 255 (2011) 2622-2652.
Heteropolynuclear
cycloplatinated complexes: Structural and
photophysical properties.
Álvaro Díez, Elena Lalinde, M. Teresa Moreno. Coordination
Chemistry Reviews 255 (2011) 2426-2447.
Sensory luminescent
iridium(III) and platinum(II) complexes for cation
recognition. Véronique
Guerchais, Jean-Luc Fillaut. Coordination
Chemistry Reviews 255 (2011) 2448-2457.
Light-emitting
devices based on organometallic platinum complexes
as emitters. Jan
Kalinowskia, Valeria Fattori, Massimo Cocchib,
J.A. Gareth Williamsc. Coordination Chemistry Reviews
255 (2011) 2401-2425.
New Design Tactics in
OLEDs Using Functionalized 2-Phenylpyridine-Type
Cyclometalates of Iridium(III) and Platinum(II). Guijiang Zhou,
Wai-Yeung Wong, and Xiaolong Yang. Chem. Asian J.
2011, 6, 1706-1727.
Luminescent
cyclometalated gold(III) complexes. Catherine Bronner and
Oliver S. Wenger. Dalton Trans., 2011, 40, 12409.
Pincer oxazolines:
emerging tools in coordination chemistry and
catalysis – where to next?. Robert
A. Gossage. Dalton Trans., 2011, 40, 8755.
Palladium(IV)
chemistry supported by pincer type ligands. Heng Zhang and Aiwen Lei, Dalton
Trans., 2011, 40, 8745.
Cleavage
of unreactive bonds with pincer metal complexes. Martin Albrecht and Monika M.
Lindner. Dalton Trans., 2011, 40, 8733.
Symmetrical and
unsymmetrical pincer complexes with group 10 metals:
synthesis via aryl C-H activation and some catalytic
applications. Jun-Long
Niu, Xin-Qi Hao, Jun-Fang Gong and Mao-Ping Song.
Dalton Trans.,
2011, 40, 5135.
Development
of luminescent iridium(III) polypyridine complexes
as chemical and biological probes. Kenneth Kam-Wing Lo, Steve Po-Yam
Li and Kenneth Yin Zhang. New J. Chem.,
2011, 35, 265-287.
Cobalt-Catalyzed, Chelation-Assisted C-H Bond
Functionalization.
Naohiko Yoshikai. Synlett 2011, 1047-1051.
Agostic bonds in
cyclometalation. Iwao Omae. Journal of
Organometallic Chemistry 696 (2011)
1128-1145.
Orthometallation as a Strategy in Pd-mediated
Organic Synthesis. David Aguilar, Luciano Cuesta, Sonia Nieto,
Elena Serrano and Esteban P. Urriolabeitia. Current Organic
Chemistry, 2011, 15, 3441-3464.
Cyclopalladated
complexes in enantioselective catalysis. V. V. Dunina, O. N.
Gorunova, P. A. Zykov, K. A. Kochetkov. Russian
Chemical Reviews 80 (1) 51-74 (2011).
2010
Palladium-Catalyzed
Ligand-Directed C-H Functionalization Reactions. Thomas W. Lyons and
Melanie S. Sanford. Chem. Rev. 2010, 110,
1147-1169.
Emergence of
Palladium(IV) Chemistry in Synthesis and
Catalysis. Petr Sehnal, Richard J. K. Taylor, and Ian J.
S. Fairlamb. Chem.
Rev. 2010, 110, 824-889.
Rhodium-Catalyzed
C-C Bond Formation via Heteroatom-Directed C-H
Bond Activation. Denise A. Colby, Robert G. Bergman, and
Jonathan A. Ellman. Chem. Rev. 2010, 110, 624-655.
Cyclometalation
Using d-Block Transition Metals: Fundamental
Aspects and Recent Trends. Martin Albrecht. Chem. Rev.
2010, 110, 576-623.
Oxime-derived
palladacycles as source of palladium
nanoparticles. Diego
A. Alonso and Carmen Nájera. Chem. Soc. Rev.,
2010, 39, 2891-2902.
Organopalladium(IV)
chemistry. Ling-Min Xu, Bi-Jie Li, Zhen Yang and
Zhang-Jie Shi. Chem.
Soc. Rev., 2010, 39, 712-733.
Transition-metal
phosphors with cyclometalating ligands:
fundamentals and applications. Yun Chi and Pi-Tai
Chou. Chem.
Soc. Rev., 2010, 39, 638-655.
Catalytic C–C
coupling through C–H arylation of arenes or
heteroarenes. Gian Paolo Chiusoli, Marta Catellani,
Mirco Costa, Elena Motti, Nicola Della Ca’,
Giovanni Maestri. Coordination Chemistry Reviews
254 (2010) 456-469.
Pd-catalyzed
oxidative coupling with organometallic reagents
via C–H activation. Chang-Liang Sun, Bi-Jie Li and
Zhang-Jie Shi. Chem.
Commun., 2010, 46, 677-685.
Bis(oxazolinyl)phenyl
transition-metal complexes: asymmetric catalysis
and some reactions of the metals. Hisao Nishiyama and
Jun-ichi Ito. Chem.
Commun., 2010, 46, 203-212.
Application of
d6 transition metal complexes in fluorescence cell
imaging. Vanesa Fernández-Moreira, Flora L.
Thorp-Greenwood and Michael P. Coogan. Chem. Commun.,
2010, 46, 186-202.
Oxidative Coupling
of Aromatic Substrates with Alkynes and Alkenes
under Rhodium Catalysis. Tetsuya Satoh and Masahiro Miura.
Chem. Eur. J.
2010, 16, 11212-11222.
Functionalization
of Organic Molecules by Transition-Metal-Catalyzed
C(sp3)-H Activation. Rodolphe
Jazzar, Julien Hitce, Alice Renaudat, Julien
Sofack-Kreutzer, and Olivier Baudoin. Chem.
Eur. J. 2010, 16, 2654 -2672.
Cysteine proteases
as targets for metal-based drugs. Simon P. Fricker. Metallomics,
2010, 2, 366-377.
Taylor-made
palladium–pincer complexes: A new source of more
efficient catalysts for sustainable organic
synthesis. Isabel Moreno, Raul SanMartin, Blanca Inés,
Fátima Churruca, Esther Domínguez. Inorganica Chimica
Acta 363 (2010) 1903-1911.
2009
Palladium-
and Copper-Catalyzed Arylation of Carbon-Hydrogen
Bonds. Olafs
Daugulis, Hien-Quang Do, Dmitry
Shabashov. Accounts of Chemical
Research 42
(2009) 1074-1086.
High-Oxidation-State
Palladium Catalysis: New Reactivity for Organic
Synthesis. Kilian Muñiz. Angew. Chem. Int. Ed. 2009, 48,
9412-9423.
Palladium(II)-Catalyzed
C-H Activation/C-C Cross-Coupling Reactions:
Versatility and Practicality. Xiao Chen, Keary M.
Engle, Dong-Hui Wang, and Jin-Quan Yu. Angew. Chem. Int. Ed.
2009, 48, 5094-5115.
Transition
metal-catalyzed C–H activation reactions:
diastereoselectivity and enantioselectivity.
Ramesh Giri,
Bing-Feng Shi, Keary M. Engle, Nathan Maugel and
Jin-Quan Yu. Chem.
Soc. Rev., 2009, 38, 3242-3272.
Recent advances in
aryl–aryl bond formation by direct arylation.
Gerard P. McGlacken
and Lorraine M. Bateman. Chem.
Soc. Rev.,
2009, 38, 2447-2464.
The coordination chemistry of
dipyridylbenzene: N-deficient terpyridine or
panacea for brightly luminescent metal complexes?
J. A. Gareth Williams. Chem. Soc. Rev., 2009, 38,
1783-1801.
Palladium
coordination compounds as anti-viral, anti-fungal,
anti-microbial and anti-tumor agents. A. Garoufis, S.K.
Hadjikakou, N. Hadjiliadis. Coordination Chemistry
Reviews 253 (2009) 1384-1397.
Catalytic C–H
amination: recent progress and future directions.
Florence Collet,
Robert H. Dodd and Philippe Dauban. Chem. Commun.,
2009, 5061-5074.
The Asymmetric
Aza-Claisen Rearrangement: Development of Widely
Applicable Pentaphenylferrocenyl Palladacycle
Catalysts. Daniel F. Fischer, Assem Barakat, Zhuo-qun Xin,
Matthias E. Weiss, and René Peters. Chem. Eur. J.
2009, 15, 8722-8741.
Synthesis and
transformation of organoboronates and stannanes by
pincer-complex catalysts. Nicklas Selander and
Kálmán J. Szabó. Dalton Trans., 2009, 6267-6279.
Mechanisms of C–H
bond activation: rich synergy between computation
and experiment. Youcef
Boutadla, David L. Davies, Stuart A. Macgregor and
Amalia I. Poblador-Bahamonde. Dalton Trans.,
2009, 5820-5831.
Construction of
Heterocycle Scaffolds via Transition Metal-Catalyzed
sp2 C-H Functionalization. Ming Zhang. Adv. Synth. Catal.
2009, 351, 2243-2270.
Cycloruthenated
Compounds - Synthesis and Applications. Jean-Pierre Djukic,
Jean-Baptiste Sortais, Laurent Barloy, and Michel
Pfeffer. Eur. J.
Inorg. Chem. 2009, 817-853.
Cyclometallated
iridium complexes for conversion of light into
electricity and electricity into light. Etienne Baranoff,
Jun-Ho Yum, Michael Graetzel, Md.K. Nazeeruddin. Journal of
Organometallic Chemistry 694 (2009)
2661-2670.
2008
Palladacycles.
Synthesis, Characterization and Applications.
J.
Dupont, M. Pfeffer (Eds.). Wiley-VCH,
Weinheim, 2008.
Non-racemic
(scalemic) planar-chiral five-membered
metallacycles: routes, means, and pitfalls in their
synthesis and characterization. Jean-Pierre Djukic,
Akram Hijazi, Howard D. Flack and Gérald
Bernardinelli. Chem.
Soc. Rev., 2008, 37, 406-425.
Optimising the luminescence of
platinum(II) complexes and their application in
organic light emitting devices (OLEDs).
J.A. Gareth Williams, Stéphanie Develay, David L.
Rochester, Lisa Murphy. Coordination Chemistry Reviews 252
(2008) 2596-2611.
Cycloheptatrienyl,
alkyl and aryl PCP-pincer complexes: Ligand backbone
effects and metal reactivity. Wolfgang Leis, Hermann
A. Mayera, William C. Kaska. Coordination Chemistry
Reviews 252 (2008) 1787-1797.
Gold(III)
compounds as anticancer agents: Relevance of
gold–protein interactions for their mechanism of
action. Angela
Casini, Christian Hartinger, Chiara Gabbiani,
Enrico Mini, Paul J. Dyson, Bernard K. Keppler,
Luigi Messori. Journal of Inorganic
Biochemistry 102 (2008) 564-575.
2007
The Chemistry of Pincer Compounds.
Morales-Morales,
D., Jensen, C. M., Eds.; Elsevier: Amsterdam, 2007.
Organic
Transformations on s-Aryl Organometallic Complexes.
Marcella Gagliardo,
Dennis J. M. Snelders, Preston A. Chase, Robertus J.
M. Klein Gebbink, Gerard P. M. van Klink, and Gerard
van Koten. Angew.
Chem. Int. Ed. 2007, 46, 8558-8573.
Rhenium-Catalyzed C-H
and C-C Bond Activation. Yoshikazu Horino. Angew.
Chem. Int. Ed. 2007, 46, 2144-2146.
Synthesis and use of bisoxazolinyl-phenyl pincers.
Hisao Nishiyama. Chem. Soc. Rev.,
2007, 36, 1133-1141.
Recent
Advances Involving Palladium (II) Complexes for
the Cancer Therapy. A.C.F.
Caires. Anti-Cancer Agents in Medicinal
Chemistry, Volume 7, Number 5, September
2007, Pp. 484-491.
Reactions of
Hypervalent Iodine Reagents with Palladium:
Mechanisms and Applications in Organic Synthesis.
Nicholas R. Deprez and Melanie S. Sanford. Inorganic Chemistry,
Vol. 46, No. 6, 2007, 1924.
Some uses of
transition metal complexes as anti-cancer and
anti-HIV agents. Raymond Wai-Yin Sun, Dik-Lung Ma, Ella
Lai-Ming Wong and Chi-Ming Che. Dalton Trans.,
2007, 4884-4892.
Three types of reactions with intramolecular
five-membered ring compounds in organic synthesis. Iwao Omae. Journal
of Organometallic Chemistry 692 (2007) 2608-2632.
Ortho-palladation of
primary amines: The mith dispelled. J. Vicente, I.
Saura-Llamas. Comments
on Inorganic Chemistry, 28, 39-72, 2007.
2006
C–H Bond Functionalization in
Complex Organic Synthesis. Kamil Godula and Dalibor Sames. Science 312
(2006) 67-72.
Ortho-metallated
transition metal complexes derived from tertiary
phosphine and arsine ligands. Fabian Mohra, Steven H.
Privér, Suresh K. Bhargava, Martin A. Bennett. Coordination Chemistry
Reviews 250 (2006) 1851-1888.
Azobenzenes and
heteroaromatic nitrogen cyclopalladated complexes
for advanced applications. Mauro Ghedini,
Iolinda Aiello, Alessandra Crispini, Attilio
Golemme, Massimo La Deda, Daniela Pucci. Coordination Chemistry
Reviews 250 (2006) 1373-1390.
Synthetically
Tailored Excited States: Phosphorescent,
Cyclometalated Iridium(III) Complexes and Their
Applications. Michael S. Lowry and Stefan Bernhard. Chem. Eur. J.
2006, 12, 7970-7977.
Oxime
Palladacycles Revisited: Stone-Stable Complexes
Nonetheless Very Active Catalysts. EMILIO ALACID, DIEGO A. ALONSO,
LUIS BOTELLA, CARMEN NÁJERA, Ma CARMEN PACHECO. The
Chemical Record, Vol. 6, 117-132 (2006).
s-Chelation-directed C-H
functionalizations using Pd(II) and Cu(II)
catalysts: regioselectivity, stereoselectivity and
catalytic turnover. Jin-Quan Yu, Ramesh Giri and Xiao
Chen. Org.
Biomol. Chem. 2006, 4, 4041-4047.
Transition
metal catalyzed oxidative functionalization of
carbon–hydrogen bonds. Allison R. Dick and Melanie S.
Sanford. Tetrahedron
62 (2006) 2439-2463.
Synthesis and
applications of optically active metallacycles
derived from primary amines. Joan Albert,
Jaume Granell , Guillermo Muller. Journal of Organometallic
Chemistry 691 (2006) 2101-2106.
2005
The Potential of
Palladacycles: More Than Just Precatalysts. Jairton Dupont,
Crestina S. Consorti, and John Spencer. Chem. Rev.
2005, 105, 2527-2571.
Carbon fluorine
bond activation by platinum group metal complexes.
Hugo Torrens. Coordination
Chemistry Reviews 249 (2005) 1957-1985.
The development of efficient
catalysts for palladium-catalyzed coupling reactions
of aryl halides. Alexander Zapf and Matthias Beller. Chem. Commun.,
2005, 431-440.
Cyclopalladated
complexes derivates of phenylhydrazones and
their use as catalysts in ethylene
polymerization. Mónica A. Pérez,
Raúl Quijada, Fernando Ortega-Jiménez, Cecilio
Alvarez-Toledano. Journal
of Molecular Catalysis A: Chemical 226
(2005) 291-295.
Phosphapalladacycles:
forms of existence and reactions. V. V. Dunina, O.
N. Gorunova. Russian Chemical Reviews 74
(10) 871-913 (2005).
2004
Intramolecular five-membered ring
compounds and their applications. Iwao Omae. Coordination Chemistry
Reviews 248 (2004) 995-1023.
Contribution
to the SAR field of metallated and coordination
complexes. Studies of the palladium and platinum
derivatives with selected thiosemicarbazones as
antitumoral drugs. Adoración Gómez Quiroga,
Carmen Navarro Ranninger. Coordination Chemistry Reviews 248
(2004) 119-133.
Where
organometallics and dendrimers merge: the
incorporation of organometallic species into
dendritic molecules. Preston A. Chase,
Robertus J.M. Klein Gebbink, Gerard van Koten. Journal of
Organometallic Chemistry 689 (2004)
4016-4054.
Palladacycles
in catalysis – a critical survey. Irina P.
Beletskaya, Andrei V. Cheprakov. Journal of
Organometallic Chemistry 689 (2004)
4055-4082.
Phosphapalladacycles:
preparation routes. V. V. Dunina, O. N.
Gorunova. Russian
Chemical Reviews 73 (4) 309-350 (2004).
2003
Cyclometalated
Phosphine-Based Pincer Complexes: Mechanistic Insight
in Catalysis, Coordination, and Bond Activation.
M.E. van der Boom and D. Milstein. Chem. Rev.
2003, 103, 1759-1792.
Developments
in the metal chemistry of N-confused porphyrin.
J. D. Harvey, C. J. Ziegler. Coordination Chemistry Reviews 247
(2003) 1-19.
Palladacyclic catalysts
in C-C and C-heteroatom bond forming reactions.
R. B. Bedford. Chem.
Commun., 2003, 1787-1796.
Metallomesogens
by ligand design. R. W. Date, E. Fernandez
Iglesias, K .E. Rowe, J. M. Elliott, D. W. Bruce. Dalton
Trans., 2003, 1914-1931.
Catalytic Methods for
C-H Bond Functionalization: Application in Organic
Synthesis. F. Kakiuchi, N. Chatani. Adv. Synth. Catal.
2003, 345, 1077-1101.
The
uses of pincer complexes in organic synthesis.
J. T. Singleton. Tetrahedron 59 (2003) 1837-1857.
Challenging
metal-based transformations. From single-bond
activation to catalysis and metallaquinonoids.
David Milstein. Pure
Appl. Chem., Vol. 75, No. 4, pp. 445-460,
2003.
2002
Catalytic
C-H/Olefin Coupling. F. Kakiuchi, S. Murai. Acc. Chem.
Res. 2002, 35, 826-834.
Ru-,
Rh-, and Pd-catalyzed C-C bond formation involving
C-H activation and addition on unsaturated
substrates. Reactions and mechanistic aspects.
Vincent Ritleng, Claude Sirlin, and Michel
Pfeffer. Chem.
Rew. 2002, 102, 1731-1769
Palladium-catalyzed coupling reactions of aryl
halides. Adam F. Littke and Gregory C.
Fu. Angew.
Chem. Int. Ed. 2002, 41, 4176 - 4211.
Chelation-Assisted
Carbon - Hydrogen and Carbon - Carbon Bond Activation
by Transition Metal Catalysts. Chul-Ho Jun,
Choong Woon Moon, and Dae-Yon Lee. Chem. Eur. J. 2002,
8, No. 11, 2423-2428.
2001
Platinum Group
Organometallics Based on "Pincer" Complexes:
Sensors, Switches, and Catalysts. M.
Albrecht, G. van Koten. Angew. Chem. Int. Ed.
2001, 40, 3750-3781.
Palladacycles - An Old Organometallic Family
Revisited: New, Simple, and Efficient Catalyst
Precursors for Homogeneous Catalysis. J.
Dupont, M. Pfeffer, J. Spencer. Eur. J. Inorg.
Chem. 2001, 1917-1927.
The scope and
limitations of deuteration mediated by the Crabtree’s
catalyst. George J. Ellames, Jennifer S.
Gibson, John M. Herbert and Alan H. McNeill. Tetrahedron
57 (2001) 9487-9497.
Studies
on the cyclometallation of ferrocenylimines.
Y. Wu, S. Huo, J. Gong, X. Ciu, L. Ding, K. Ding, C.
Du, Y. Liu, M. Song. Journal of Organometallic
Chemistry 637 - 639 (2001) 27-46.
2000
The bright future
of stereoselective synthesis of co-ordination
compounds. Alex von Zelewsky and Olimpia
Mamula. J. Chem. Soc., Dalton Trans., 2000,
219-231.
1999
Suprasupermolecules
with novel properties: metallodendrimers. G. R.
Newkome, E. He, C. N. Moorefield. Chem. Rev.
1999, 99, 1689-1746.
Coordination chemistry of
oxazoline ligands. Montserrat Gómez, Guillermo Muller,
Mercè Rocamora. Coordination
Chemistry Reviews 193–195 (1999) 769-835.
Application of
palladacycles in Heck type reactions. W. A.
Herrman, V. P. W. Böhm, C. P. Reisenger. Journal
of Organometallic Chemistry 576 (1999) 23-41.
1998
Bioorganometallic chemistry-Transition metal
complexes with a-amino acids and peptides. K.
Severin, R. Bergs, W. Beck. Angew. Chem. Int. Ed.
1998, 37, 1634-1654.
Recent findings in cyclometallation of
meta-substituted aryl ligands by platinum group
metal complexes by Caryl-R bond activation (R = H, CR3, SiR3). P.S.
Steenwinkel, R.A. Gossage, G. van Koten. Chem.
Eur. J. 1998, Vol. 4, No. 5, 759-762.
State of the art in selective hetero- and
carbocyclic syntheses mediated by cyclometallated
complexes. J. Spencer, M. Pfeffer. Advances
in Metal-Organic Chemistry Volume 6, pages
103-144 (1998).
1997
Resolutions
of tertiary phosphines and arsines with
orthometallated palladium(II)-amine complexes.
S. B. Wild. Coordination Chemistry Reviews 166
(1997) 291-311.
Recent advances in
the organometallic chemistry of aryldiamine anions
that can function as N,C,N'- and C,N,N'-chelating terdentate "pincer"
ligands: an overview. M. H. P. Rietveld, D.
M. Grove, G. van Koten. New. J. Chem. 1997,
21, 751-771.
Recent advances in C-F activation. Juan
Burdeniuc, Brigitte Jedlicka, Robert H. Crabtree. Chem. Ber. Recueil
1997, 130, 145-154.
1995
Mechanism
of d8 organometallic
reactions involving electrophiles and intramolecular
assistence by nucleophiles. A.J. Canty,
G. van Koten. Acc.
Chem. Res. 1995, 28, 406-413.
Intramolecular Coordination in Organometallic
Compounds of Groups 2, 12, and 13. G. J. M.
Gruter, G. P. M. van Klink, O. S. Akkerman, F.
Bickelhaupt. Chem Rev. 1995, 95, 2405-2452.
1994
Activation of carbon-fluorine bonds by metal
complexes. J. L. Kiplinger, T. G. Richmond,
C. E. Osterberg. Chem. Rev. 1994, 373-431.
Nitrogen donors in
organometallic chemistry and homogeneous catalysis.
Antonio Togni and Luigi M. Venanzi. Angew. Chem. Int. Ed. Engl.
1994, 33, 497-526.
Tailor made coordination compounds for
photochemical purposes. A. von Zelewsky, P.
Belser, P. Hayoz, R. Dux, X. Hua, A. Suckling, H.
Stoeckli-Evans. Coordination Chemistry Reviews
132 (1994) 75-85.
Orthomanganated aryl ketones and related
compounds in organic synthesis. M. Lyndsay,
B. K. Nicholson. Advances in Metal-Organic
Chemistry Volume 3, pages 1-50 (1994).
1992
Transition metal liquid crystals: advanced
materials within the reach of the coordination
chemistry. P. Espinet, M. A. Esteruelas, L.
A. Oro, J. L. Serrano, E. Sola. Coordination
Chemistry Reviews 117 (1992) 215-274.
Selected applications to organic synthesis of
intramolecular C-H activation reactions by
transition metal complexes. M. Pfeffer. Pure
& Appl. Chem. Vol. 64, No. 3, pp. 335-342
(1992).
1990
Mechanisms of intramolecular activation of C-H
bonds in transition metal complexes. A. D.
Ryabov. Chem. Rev. 1990, 90, 403-424.
Reactions of cyclopalladated compounds and
alkynes: new pathways for organic synthesis?
M. Pfeffer. Recl. Trav. Chim. Pays-Bas 109,
567-576 (1990).
1989
Tuning the reactivity of metals held in a rigid
ligand environment. G. van Koten. Pure
& Appl. Chem. Vol. 61, No. 10, pp. 1681-1694
(1989).
1988
Cyclometalation
Chemistry of Aryl Oxide Ligation. I. P.
Rothwell. Acc. Chem.
Res. 1988, 21, 153-159.
Recent studies on organometallic
intramolecular-coordination compounds. I.
Omae. Coordination Chemistry Reviews 83 (1988)
137-167.
General Principles and characteristics of
Cyclopalladation Reactions. V. V. Dunina,
V.M. Potatov. Russian Chemical Reviews 57(3),
1988, 250-269.
1986
Organometallic Intramolecular
Coordination Compounds. I. Omae.
Elsevier Publ.: Amsterdam, 1986.
Cyclometallation
of the Platinum Metals with Nitrogen and Alkyl,
Alkenyl, and Benzyl Carbon Donors. G. R.
Newkome, W. E. Puckett, V. K. Gupta, G. I. Kiefer. Chem.
Rew. 1986, 86, 451-489.
1985
Cyclopalladated complexes in organic synthesis.
A. D. Ryabov. Synthesis 1985, 223.
1984
Organometallic intramolecular-coordination
compounds containing a π-allyl donor ligand. Iwao Omae. Coordination
Chemistry Reviews, 53 (1984) 261-291.
Cyclometallated complexes incorporating a
heterocyclic donor atom; the interface of
coordination chemistry and organometallic chemistry.
E. C. Constable, Polyhedron Vol. 3, No. 9/10,
pp. 1037-1057, 1984.
1982
Organometallic intramolecular-coordination
compounds containing an arsine donor ligand.
I. Omae. Coordination
Chemistry Reviews 42 (1982) 245-257.
1980
Organometallic intramolecular-coordination
compounds containing a phosphorus donor ligand.
I. Omae. Coordination Chemistry Reviews 32
(1980) 235-271.
1979
Organometallic
Intramolecular-Coordination Compounds Containing a
Nitrogen Ligand. I. Omae. Chem. Rew.
1979, 79, 287-321.
Organometallic
intramolecular-coordination compounds. Recent
aspects in the study of sulfur donor ligands.
I. Omae. Coordination Chemistry Reviews 28
(1979) 97-115.
1977
Cyclometallation
Reactions. M. I. Bruce. Angew. Chem. Int.
Ed. Engl. 16, 73-86 (1977). DOI:
10.1002/anie.197700731.
1976
Cyclometallated compounds. J. Dehand, M.
Pfeffer. Coordination Chemistry Reviews, 18
(1976) 327-352. DOI: 10.1016/S0010-8545(00)80431-2.
1970
Intramolecular Aromatic Substitution in
Transition Metal Complexes. G. W. Parshall. Acc.
Chem. Res. Vol. 3, No. 4, pp. 139-144 (1970).
DOI: 10.1021/ar50028a004.
