Articles citing this paper
4,5-Diazafluoren-9-one from the oxidation of 1,10-Phenanthroline by permanganate
IF Eckhard and LA Summers
26(12) pp.2727 - 2728
45 articles found in Crossref database.
Chemistry and Applications of 4,5-Diazafluorenes
Ono Katsuhiko, Saito Katsuhiro
HETEROCYCLES. 2008 75(10). p.2381
Efficient emission of Zn(ii) and Cd(ii) complexes with nopinane-annelated 4,5-diazafluorene and 4,5-diazafluoren-9-one ligands: how slight structural modification alters fluorescence mechanism
Kokina Tatyana E.,
Shekhovtsov Nikita A.,
Vasilyev Eugene S.,
Glinskaya Ludmila A.,
Mikheylis Aleksandr V.,
Plyusnin Victor F.,
Tkachev Alexey V., Bushuev Mark B.
Dalton Transactions. 2023 52(22). p.7429
Electrical conduction mechanism in N-(p-R-phenacyl)-4,5-diazafluorenium-9-one bromides thin films
Leontie L.,
Druta I., Danac R.
Synthetic Metals. 2006 156(2-4). p.224
Synthesis of Azafluorenones
Kloc Krystian,
Mlochowski Jacek, Szulc Zdzislaw
Journal für Praktische Chemie. 1977 319(6). p.959
Ru(II) with chelating containing N4-type donor quadridentate Pd-oxime metal complexes: Syntheses, spectral characterization, thermal and catalytic properties
Kilic Ahmet,
Durap Feyyaz,
Aydemir Murat,
Baysal Akin, Tas Esref
Journal of Organometallic Chemistry. 2008 693(17). p.2835
Comprehensive Heterocyclic Chemistry II (1996)
Synthesis and Assessment of CO‐Release Capacity of Manganese Carbonyl Complexes Derived from Rigid α‐Diimine Ligands of Varied Complexity
Jimenez Jorge,
Chakraborty Indranil, Mascharak Pradip K.
European Journal of Inorganic Chemistry. 2015 2015(30). p.5021
Coordination chemistry and applications of versatile 4,5-diazafluorene derivatives
Annibale Vincent T., Song Datong
Dalton Transactions. 2016 45(1). p.32
Carbonyl and chloro complexes of ruthenium(II) containing 3,3′-diester-2,2′-bipyridyl ligands
Ben Hadda Taibi,
Sam Najat,
Le Bozec Hubert, Dixneuf Pierre H.
Inorganic Chemistry Communications. 1999 2(10). p.460
Novel 4,5-diazafluorene-based Schiff base derivatives as Al 3+ ions fluorescence turn-on sensors
Zhang Shu Jiang,
Li Hui,
Gong Chen Liang,
Wang Jian Zhi,
Wu Zhong Ying, Wang Feng
Synthetic Metals. 2016 217 p.37
Electroorganic reactions, part 47. The cathodic hydrogenation of azafluoren-9-ylidine probases
Utley James H.P., Ling-Chung Sim K.
Electrochimica Acta. 1997 42(13-14). p.2109
Oxidation of 1,10-phenanthroline by tetraoxomanganate(VI) and (VII). Preparation, structure and properties of 1H-cyclopenta[2,1-b:3,4-b′]dipyridine-2,5-dione
Baxter Paul N. W.,
Connor Joseph A.,
Wallis John D.,
Povey David C., Powell Anne K.
J. Chem. Soc., Perkin Trans. 1. 1992 (13). p.1601
Evidence for Oxidative Decay of a Ru-Bound Ligand during Catalyzed Water Oxidation
Kagalwala Husain N.,
Tong Lianpeng,
Zong Ruifa,
Kohler Lars,
Ahlquist Mårten S. G.,
Fan Ting,
Gagnon Kevin J., Thummel Randolph P.
ACS Catalysis. 2017 7(4). p.2607
The multinuclear cobaloxime complexes-based catalysts for direct synthesis of cyclic carbonate from of epichlorohydrin using carbon dioxide: Synthesis and characterization
Kilic Ahmet,
Ulusoy Mahmut,
Durgun Mustafa, Aytar Emine
Inorganica Chimica Acta. 2014 411 p.17
Mass spectral fragmentation pattern of 5H‐cyclopenta[2,1‐b:3,4‐b′] dipyridin‐5‐one
Keats N. G., Summers L. A.
Journal of Heterocyclic Chemistry. 1975 12(5). p.1025
Crystal Structure of Antitubercular Complex: cis-(chloro)-[N,N′-bis-(diethyl-2,2′-bipyridine-3,3′-dicarboxylate)]ruthenium(II) Monohydrate
Toupet Loic,
Dixneuf Pierre H.,
Akkurt Mehmet,
Daoudi Maria,
Sam Najat,
Kerbal Abdelali,
Chohan Zahid H., Hadda Taibi Ben
Journal of Chemical Crystallography. 2009 39(6). p.423
Advances in Heterocyclic Chemistry Volume 35 (1984)
Modified Ullmann coupling of 2-chloro-3-trifluoromethylpyridine
Munavalli S.,
Rossman D.I.,
Szafraniec L.L.,
Beaudry W.T.,
Rohrbaugh D.K.,
Ferguson C.P., Grätzel M.
Journal of Fluorine Chemistry. 1995 73(1). p.1
Hetero‐ and homo‐leptic Ru(II) catalyzed synthesis of cyclic carbonates from CO2; Synthesis, spectroscopic characterization and electrochemical properties
Kilic Ahmet,
Ulusoy Mahmut,
Durgun Mustafa,
Tasci Zeynep,
Yilmaz Ismail, Cetinkaya Bekir
Applied Organometallic Chemistry. 2010 24(6). p.446
Synthesis, characterization, electrochemical properties and conversions of carbon dioxide to cyclic carbonates mononuclear and multinuclear oxime complexes using as catalyst
Kilic Ahmet,
Palali Ahmet Arif,
Durgun Mustafa,
Tasci Zeynep,
Ulusoy Mahmut,
Dagdevren Metin, Yilmaz Ismail
Inorganica Chimica Acta. 2013 394 p.635
Synthesis and structures of ruthenium di- and tricarbonyl complexes derived from 4,5-diazafluoren-9-one
Jimenez Jorge,
Chakraborty Indranil, Mascharak Pradip
Acta Crystallographica Section C Structural Chemistry. 2015 71(11). p.965
Preparation of an enantiomerically pure, highly porous metalloorganic crystal
Kobetic Renata,
Stevens Edwin D., Piotrowiak Piotr
Inorganica Chimica Acta. 2004 357(15). p.4610
Solvatochromism in substituted 2,2′-bipyridinetetracarbonyl-metal complexes of chromium, molybdenum and tungsten
Baxter Paul N.W., Connor Joseph A.
Journal of Organometallic Chemistry. 1995 486(1-2). p.115
Colorimetric detection of hydrogen peroxide with gadolinium complex of phenylboronic acid functionalized 4,5-diazafluorene
Cebeci Caner,
Ucar Burcu,
Acar Tayfun, Erden Ibrahim
Inorganica Chimica Acta. 2021 522 p.120386
Synthesis of Ruthenium(II) Carbonyl Chloride Complexes Containing N-Donor Bidentate Ligands
Thomas Nicholas C., Deacon Glen B.
Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry. 1986 16(1). p.85
Synthesis of novel 4,5‐diazafluoren‐9‐one derivatives and theoretical study of 3+2 cycloaddition reactions
Danac Ramona,
Druta Ioan,
Rotaru Alexandru,
Ghirvu Constantin, Constantinescu Mircea
Journal of Heterocyclic Chemistry. 2004 41(6). p.983
A novel off-on fluorescent chemosensor for Al3+derived from a 4,5-diazafluorene Schiff base derivative
Li Hui,
Wang Jianzhi,
Zhang ShuJiang,
Gong ChenLiang, Wang Feng
RSC Advances. 2018 8(56). p.31889
Management of Water Quality in Moldova (2014)
A FACILE SYNTHESIS OF 2, 2′-BIPYRIDYL-3, 3′-DICARBOXYLIC ACID
Wimmer Franz L., Wimmer Smita
Organic Preparations and Procedures International. 1983 15(5). p.368
Synthesis of 2,2′‐Bipyridines: Versatile Building Blocks for Sexy Architectures and Functional Nanomaterials
Newkome George R.,
Patri Anil K.,
Holder Elisabeth, Schubert Ulrich S.
European Journal of Organic Chemistry. 2004 2004(2). p.235
ChemInform Abstract: 4,5‐DIAZAFLUOREN‐9‐ONE FROM THE OXIDATION OF 1,10‐PHENANTHROLINE BY PERMANGANATE
ECKHARD I. F., SUMMERS L. A.
Chemischer Informationsdienst. 1974 5(11).
A Turn-on and Reversible Fluorescence Sensor for Zinc Ion Based on 4,5-Diazafluorene Schiff Base
Li Hui,
Zhang ShuJiang,
Gong ChenLiang,
Wang JianZhi, Wang Feng
Journal of Fluorescence. 2016 26(5). p.1555
Oxidation of 4,7-phenanthroline derivatives
Gusak K. N.,
Kozlov N. G., Tereshko A. B.
Russian Journal of Organic Chemistry. 2004 40(9). p.1322
Mechanism of chemiluminescence in the oxidation of 1,10-phenanthroline by hydrogen peroxide in aqueous solution
Fedorova O. S., Berdnikov V. M.
Bulletin of the Academy of Sciences of the USSR Division of Chemical Science. 1979 28(6). p.1144
Comprehensive Heterocyclic Chemistry II (1996)
Transfer hydrogenation of aryl ketones with homogeneous ruthenium catalysts containing diazafluorene ligands
Baran Mehmet Fırat,
Durap Feyyaz,
Aydemir Murat, Baysal Akın
Applied Organometallic Chemistry. 2016 30(12). p.1030
Experimental and Computational Studies on the Interaction between DNA and BSA with a Couple of Isomeric [Pd(daf)(Leu)]+, and [Pd(daf)(Ile)]+ Antitumor Complexes, Their Synthesis and Spectral Characterization
Heidari Ameneh,
Mansouri-Torshizi Hassan,
Saeidifar Maryam, Abdi Khatereh
Bulletin of the Chemical Society of Japan. 2021 94(11). p.2678
Synthesis of fluorenylidene‐ and 9‐alkylidene‐3,6‐dimethyl‐4,5‐diazafluorene compounds from 2,2′‐biarene‐3,3′‐diyl bis(triflate) by a palladium‐catalyzed domino process
König Burkhard,
Bubenitschek Peter, Jones Peter G.
Liebigs Annalen. 1995 1995(1). p.195
Kinetics of 2,2′‐Bipyridyl‐Catalyzed Oxidation of Isopropyl Alcohol with Chromic Acid
Lin Tzucn‐Yeuan,
Zeng Han‐Wei, Chuo Chin‐Ming
Journal of the Chinese Chemical Society. 1995 42(1). p.43
One-pot synthesis of 2-bromo-4,5-diazafluoren-9-one via a tandem oxidation–bromination-rearrangement of phenanthroline and its hammer-shaped donor–acceptor organic semiconductors
Zhao Jian-Feng,
Chen Lin,
Sun Peng-Ju,
Hou Xiao-Ya,
Zhao Xiang-Hua,
Li Wei-Jie,
Xie Ling-Hai,
Qian Yan,
Shi Nai-En,
Lai Wen-Yong,
Fan Qu-Li, Huang Wei
Tetrahedron. 2011 67(10). p.1977
Synthesis of 3,3′-Disubstituted-2,2′-bipyridines from 1,10-Phenanthroline-5,6-quinone
Conn Costa, Shimmon Ronald
Chemistry Letters. 2004 33(1). p.78
Synthesis and Properties of New Donors with an Ability of Metal-Coordination
Sako Katsuya,
Kusakabe Masahiko, Tatemitsu Hitoshi
Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals. 1996 285(1). p.101
Advances in Heterocyclic Chemistry Volume 22 (1978)
The properties of the new Mn(II)–Co(II)–Mn(II)-type hetero-trinuclear oxime metal complexes with N4 and N4O2 ligands
Kilic Ahmet,
Durap Feyyaz,
Baysal Akin, Durgun Mustafa
Journal of Inclusion Phenomena and Macrocyclic Chemistry. 2010 67(3-4). p.423
Novel Luminescent Diazafluorenone Liquid Crystals
Bader Korinna,
Baro Angelika,
Ehni Philipp,
Frey Wolfgang,
Gündemir Rafet,
Laschat Sabine, Molard Yann
Crystal Growth & Design. 2019 19(8). p.4436
