A.Loupy, A.Petit, D.Bogdal, Microwave and Phase-Transfer Catalysis, In:
Microwaves in Organic Synthesis , A.Loupy (Ed.), Wiley-VCH Verlag,
Weinheim, 2002, p.147-180.
D.Bogdal, Zastosowanie promieniowania mikrofalowego w reakcjach
przeniesienia międzyfazowego w układach bezrozpuszczalnikowych,
Zeszyty Naukowe Politechniki Krakowskiej, Seria Inżynieria i
Technologia Chemiczna, Nr 248, Kraków 1999.
Application of Microwave Irradiation to Phase-Transfer Catalyzed Reactions. Org. Process Res. Dev. , 12, 710-722 (2008); D. Bogdal, A. Loupy
Microwave induced thermal gradients in solventless reaction systems. Tetrahedron, 62, 9440-9445 (2006); D. Bogdal, M. Lukasiewicz, S. Bednarz
Synthesis and properties of new poly(ether-ester)s containing aliphatic diol based on isosorbide. Effects of the microwave-assisted polycondensation. Eur.Polym.J. , 42, 410-424 (2006); S. Chatti, M. Bortolussi, D. Bogdal, J.C. Blais, A. Loupy
Improvement in the synthesis of metallophthalocyanines using microwave irradiation. Tetrahedron, 61 , 179-188 (2005); A. Burczyk, A. Loupy, D. Bogdal, A. Petit
Microwave-assisted epoxidation of simple alkenes in the presence of hydrogen peroxide. Synth. Commun., 35, 2973-2983, (2005); D. Bogdal, M. Lukasiewicz, J. Pielichowski, S. Bednarz
Halogenation of carbazole and other aromatic compounds with hydrohalic acids and hydrogen peroxide under microwave irradiation. Green Chem. , 6 , 110-113 (2004); D. Bogdal, M. Lukasiewicz, J. Pielichowski
Microwave-assisted polycondensation of aliphatic diols of isosorbide with aliphatic disulphonylesters via phase-transfer catalysis. Eur.Polym.J. , 40, 561-577 (2004); S. Chatti, M. Bortolussi, D. Bogdal, J.C. Blais, A. Loupy
Microwave-Assisted Oxidation of Side Chain Arenes by Magtrieve. Adv. Synth. Catal. , 345 , 1269-1272 (2003);
M. Lukasiewicz, D. Bogdal, J. Pielichowski
Synthesis of new polyethers derived from isoidide under phase-transfer catalysis:
Reactivity and selectivity under microwaves and classical heating J. Appl. Polym. Sci. , 90, 1255-1266 (2003);
S. Chatti, M. Bortolussi, A. Loupy, J. C. Blais, D. Bogdal, P. Roger
Efficient synthesis of polyethers from isosorbide by
microwave-assisted phase transfer catalysis Eur.Polym.J. , 38, 1851 (2002);
S. Chatti, M. Bortolussi, A. Loupy, J.C. Blais, D. Bogdal, M. Majdoub
Synthesis of thiamacrocycles and conformational studies on their precursors. J. Org. Chem., 65 , 343-351 (2000); R.A. Abramovitch, X. Ye, W.T.Pennington, G. Schimek, D. Bogdal
New Method of N-Alkylation of Carbazole under Microwave Irradiation
in Dry Media. Synth. Commun.,27, 1553-1560 (1997);
D. Bogdal, J.Pielichowski, K.Jaskot
Absorption spectra of poly-N-vinylcarbazole derivatives by experiment and simulation. Eur. Pol. J., 40, 799-804 (2004); M. Makowska-Janusik, J. Sanetra, H. Palmer, D. Bogdal,
E. Gondek, I.V. Kityk
New carbazole-based polymers for dye solar cells with hole-conducting polymer. Synth. Met., 146, 159-165 (2004); J.Wagner, J.Pielichowski, A.Hinsch, K.Pielichowski,
D.Bogdal, M.Pajda, S.S.Kurek
Absorption spectra of new synthesized electroluminescent materials of poly- N-vinylcarbazole derivatives. Materials Letters, 58, 555-562 (2004); M. Makowska-Janusik, J. Sanetra, H. Palmers,
D. Bogdal, E. Gondek, I.V. Kityk
Light from electroluminescent diodes made from copolymer. Synth. Met., 121, 1731 (2001); J.Sanetra, P.Armatys, S.Niziol, D.Bogdal, M.Warzala, J.Pielichowski
Synthesis and spectral investigation of alkyl methacrylates
with halogenated carbazolyl pendant groups for photonics applications. J. App. Polym. Sci., 84 , 1650-1656 (2002); D.Bogdal,
V.Yashchuk, J.Pielichowski, T.Ogulchansky, M.Warzala,V.Kudry
Photo-and Electroluminescent
Properties of Polymethacrylates with Carbazolyl and Fluorescent Pendant
Groups. Chem. Mat. , 14 , 89-95 (2002);
J.Sanetra, D.Bogdal, M.Warzala, A.Boron
Spectral investigation of alkyl methacrylates with
halogenated carbazolyl pendant groups. Polimery , 47 , 279-281 (2002);
D.Bogdal, V.Yashchuk, J.Pielichowski, I.Stepien, T.Ogulchansky,
M.Warzala, V.Kudry
Third-order nonlinear optical susceptibility of polymers
based on carbazole derivatives. J. Opt. Soc. Am. B, 19 , 89-93 (2002);
I.Fuks, B.Derkowska, B.Sahraoui, S.Niziol, J.Sanetra, D.Bogdal,
J.Pielichowski
Application of polymers as electroluminescent layers. Polimery, 44 , 646 (1999); D.Bogdal, A.Boron
Synthesis and Polymerization of Methacrylates with Carbazolyl and Fluorescent Pendant
Groups. Polimery, 44 , 555-557 (1999); D.Bogdal
Synthesis and Polymerisation of Alkyl Methacrylates
with Carbazolyl Pendant Groups. Polimery, 44 , 146-148 (1999); D.Bogdal, M.Warzala,
J.Pielichowski, J.Sanetra
Thermal Decomposition of the Copolymers Based on Long-Chained
Diol Dimethacrylates and BIS-GMA/TEGDMA. Thermochimica Acta 307 , 155-165 (1997);
K.Pielichowski, D.Bogdal, J.Pielichowski, A.Boron
Application of Diol Dimethacrylates in Dental Composites
and Their Influence on Polymerization Shrinkage. J. Appl. Polym. Sci., 66 , 2333-2337 (1997);
D.Bogdal, A.Boron, J.Pielichowski
The Determination of Polymerization Shrinkage of Materials
for Conservative Dentistry. Polimery, 41 , 469 (1996);
D.Bogdal, A.Boron, J.Pielichowski
Application of Microwave Irradiation to Phase-Transfer Catalyzed Reactions. Org. Process Res. Dev. , 12, 710-722 (2008); D. Bogdal, A. Loupy
Synthesis of Vinyl Monomers with Active Azaaromatic Groups.
Phase-Transfer Catalytic Approach. Synth. Commun. 38 , 3341-3352 (2000);
D.Bogdal, K.Jaskot
Polymers as Phase Transfer Catalysts. Part 2. Onium
Salts, Macrocyclics and Polymer Supported Aprotic Solvents. Polimery, 43 , 11-16 (1998);
D.Bogdal, J.Pielichowski
Polymers as Phase Transfer Catalysts. Part 1. Catalyst Structure
and Factors Governing Catalyst Activity. Polimery, 42 , 651-655 (1997);
D.Bogdal, J.Pielichowski
Application of Trichloroethylene in Organic Synthesis. X.
Synthesis of 1,2-Dichlorovinyl Aliphatic Ethers. Bull. Soc. Chim. Belg. , 106 , 809-812(1997);
D.Bogdal
Application of Trichloroethylene as a Precursor of Dichloroacetylene
under Phase-Transfer Catalytic Conditions. Polish J. Chem., 68 , 2439-49 (1994);
D.Bogdal, J.Pielichowski
Application of Trichloroethylene in Organic Synthesis. VIII.
Synthesis of 1-(9-Carbazolyl)-1-dialkylamino-2-chloroethenes
and N,N-Dialkyl-$\alpha$-(9-carbazolyl)acetamides. Bull. Soc. Chem. Fr., 132 , 1127-1131 (1995);
D.Bogdal, J.Pielichowski
Crown Ethers - New Catalysts for the Synthesis and Reactions of
Dichloroacetylene.
Cracow University of Technology, Anniversary Issue
vol. 3, Krakow 1995; J.Pielichowski, D.Bogdal, P.Bako
Synthesis of 1-N-Alkylimino-1,2-Di(9-carbazolyl)ethanes
Evidence for the Reaction Mechanism of Dichloroacetylene with Primary
Amines. Synth. Commun., 24 , 3091-98, (1994);
J.Pielichowski, D.Bogdal
Application of Modyfied Polystyrenes as Phase-Transfer Catalysts. Polimery, 39 , 538-542 (1994);
J.Pielichowski, P. Czub, D.Bogdal
New Reactions of Dichloroacetylene with Carbazole and Primary
Amines. Bull.Soc.Chim.Belg.,102 , 343 (1993);
J.Pielichowski, D.Bogdal
New Reactions of Trichloroethylene with Carbazole and an
Aliphatic Amine via Dichloroacetylene Intermediate. Bull.Soc.Chim.Belg., 100 , 561 (1991);
J.Pielichowski, D.Bogdal