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Publications
Research articles
>
2019-20
2017-2018
2016
2015
2014
2013
2011-2012
2009-2010
2008-2005
2004-1992
Patents
Book chapters
Misc. articles
Research Group
Post Doc.
Ph.D. (Present)
Group Alumni
Masters
>
M.Sc. Chemistry
M.Tech.
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45.
Synthesis of N,N’-disubstituted urea from ethylene carbonate and amine using CaO.
S. Fujita, B. M. Bhanage, M. Arai*
Chem. Lett.,
33, 2004, 742-743.
44.
Hydroformylation of 1,5-hexadiene catalyzed with rhodium complexes in supercritical carbon dioxide and in toluene: Effects of
fluorinated phosphine ligands and pressure.
S. Fujita, S. Fujisawa, B. M. Bhanage, M. Arai*
Eur. J. Org. Chem.,
2004, 2881-2887.
43.
One-pot synthesis of styrene carbonate from styrene in tetrabutylammonium bromide.
J. Sun, S. Fujita, B. M. Bhanage, M. Arai*
Catal. Today,
93-95, 2004, 383-388.
42.
Supported liquid phase catalysts containing ruthenium complexes for selective hydrogenation of α, β -unsaturated aldehydes :
Importance of interfaces between aqueous liquid film and organic solvent for the control of product selectivity.
S. Fujita, Y. Sano, B. M. Bhanage, M. Arai*
J. Catal.,
225, 2004, 95-104.
41.
Direct oxidative carboxylation of styrene to styrene carbonate in the presence of ionic liquids.
J. Sun, S. Fujita, B. M. Bhanage, M. Arai*
Catal. Commun.,
5, 2004, 83-87.
40.
Non-catalytic clean synthesis route using urea to cyclic urea and cyclic urethane compounds
B. M. Bhanage, S. Fujita,Y. Ikushima, M. Arai*
Green Chem.,
6, 2004, 78-80.
39.
Rhodium-tris(3,5-bis(trifluoromethyl)phenyl)phosphine catalyzed hydroformylation of dienes to dialdehydes in supercritical carbon dioxide
with high activity.
S. Fujita, S. Fujisawa, B. M. Bhanage, M. Arai*.
Tetrahedron Lett.,
45, 2004, 1307-1310.
38.
Heck reactions with various types of palladium complex catalysts: application of multiphase catalysis and supercritical carbon dioxide.
B. M. Bhanage, S. Fujita, M. Arai*
J. Organomet. Chem.,
687, 2003, 211-218.
37.
Transesterification of urea and ethylene glycol to ethylene carbonate as an important step for urea based dimethyl carbonate synthesis.
B. M. Bhanage, S. Fujita,Y. Ikushima, M. Arai*
Green Chem.,
5, 2003, 429-432.
36.
Synthesis of cyclic ureas and urethanes from alkylene diamines and amino alcohols with pressurized carbon dioxide in the absence of
catalysts
B. M. Bhanage, S. Fujita,Y. Ikushima, M. Arai*
Green Chem.,
5, 2003, 340-342.
35.
Alkali metal-incorporated mesoporous smectites: crystallinity and textural properties
H. Yan-feng, S. Fujita, N. Iwasa, B. M. Bhanage, M. Arai*
Chem. Res. Chin. Univ.,
19, 2003, 253-256.
34.
Simultaneous application of two or more supported liquid-phase organometallic catalysts: heterogeneous multifunctional reaction
systems
B. M. Bhanage, S. Fujita, T. Yoshida, Y. Sano, M. Arai*
Tetrahedron Lett.,
44, 2003, 3505-3507.
33.
Synthesis of dimethyl carbonate and glycols from carbon dioxide, epoxides, and methanol using heterogeneous Mg containing smectite catalysts: Effect of reaction variables on activity and selectivity performance.
B. M. Bhanage, S. Fujita, Y. Ikushima, K. Torii, M. Arai*
Green Chem.,
5, 2003, 71–75.
32.
Kinetic analysis of hydrogenation of cinnamaldehyde with a ruthenium complex catalyst in several solvents.
S. Fujita, Y. Sano, B. M. Bhanage, M. Arai*
J. Chem. Eng. Japan,
36, 2003, 155-160.
31.
Concurrent synthesis of dimethyl carbonate and ethylene glycol via transesterification of ethylene carbonate and methanol using
smectite catalysts containing Mg and/or Ni
.
B. M. Bhanage, S. Fujita, Y.-F. He, Y. Ikushima, M. Shirai, K. Torii, M. Arai*
Catal. Lett.
, 83, 2002, 137-141.
30.
Selective hydrogenation of phenylacetylene with graphite intercalated platinum nanosheets.
M. Shirai, B. M. Bhanage, H. Senboku, S. Fujita, M. Arai*
Journal of the Japan Petroleum Institute,
45, 2002, 420-421.
29.
Hydroformylation of 1-hexene catalyzed with rhodium fluorinated phoshine complexes in supercritical carbon dioxide and in
conventional organic solvents: Effects of ligands and pressures.
S. Fujita, S. Fujisawa, B. M. Bhanage, Y. Ikushima, M. Arai*
New J. Chem.,
26, 2002, 1479-1484.
28.
Heck reaction with a silica supported Pd-TPPTS liquid phase catalyst: Effect of reaction conditions and the various amines on
the reaction rate.
S. Fujita, Y. Yoshida, B. M. Bhanage, M. Arai*
J. Mol. Catal. A,.
188, 2002, 37-43.
27.
Chemical fixation of carbon dioxide to propylene carbonate using smectite catalysts with high activity and selectivity.
S. Fujita, B. M. Bhanage, Y. Ikushima, M. Shirai, K. Torii, M. Arai*
Catal. Lett.,
79, 2002, 95-98.
26.
Palladium-based supported liquid phase catalysts: influence of preparation variables on the activity and enhancement of the activity on
recycling in the Heck reaction.
S. Fujita, Y. Yoshida, B. M. Bhanage, M. Arai*
J. Mol. Catal. A,.
180, 2002, 277-284.
25.
Palladium-catalyzed Heck coupling reactions using different fluorinated phosphine ligands in compressed carbon dioxide and
conventional organic solvents.
S. Fujita, K. Yuzawa, B. M. Bhanage, Y. Ikushima, M. Arai*
J. Mol. Catal. A,
180, 2002, 35-42.
24.
Catalyst-product Separation Techniques in Heck Reactions.
B. M. Bhanage, M. Arai*
Catal. Rev. Sci. & Eng.
, 43, 2001, 315-345.
23.
Synthesis of dimethyl carbonate and glycols from carbon dioxide, epoxides, and methanol using heterogeneous basic metal oxides
catalysts with high activity and selectivity.
B. M. Bhanage, S. Fujita, Y. Ikushima, M. Arai*
Applied Catal. A,
219, 2001, 259-266.
22.
Synthesis of dimethyl carbonate from carbon dioxide and methanol in the presence of methyl iodide and base catalysts under mild
conditions - Effect of reaction conditions and reaction mechanism.
S. Fujita, B. M. Bhanage, Y. Ikushima, M. Arai*
Green Chem,
3, 2001, 87-91.
21.
Heck reactions in supercritical carbon dioxide using organometallic complex catalysts.
B. M. Bhanage, Y. Ikushima, M. Shirai, M. Arai*
High Pressure Res.
, 20, 2001, 131-142.
20.
Supported liquid film catalyst and biphasic catalysis using water soluble metal complexes in a medium of supercritical carbon dioxide.
B. M. Bhanage, Y. Ikushima, M. Shirai, M. Arai*
Stud. Surf. Sci. & Catal.,
132, 2001, 1079-1082.
19.
Selectivity in Sulfonation of triphenyl phosphine.
B. M. Bhanage, S. S. Divekar, R. M. Deshpande*, R.V. Chaudhari
Org. Proc. & Res. Dev.,
4, 2000, 342-345.
18.
Heck reactions of iodobenzene and methyl acrylate with conventional supported palladium catalysts in the presence of organic and/or
inorganic bases without ligands.
F. G. Zhao, B. M. Bhanage, M. Shirai, M. Arai*
Chem. Eur. J.,
6, 2000, 843-848.
17.
The selective formation of unsaturated alcohols by hydrogenation of a,b unsaturated aldehydes in supercritical carbon dioxide using
unpromoted Pt/Al2O3 catalyst.
B. M. Bhanage, Y. Ikushima, M. Shirai, M. Arai*
Catal. Lett.,
62, 1999, 175-177.
16.
Heck reactions using water soluble metal complexes in supercritical carbon dioxide.
B. M. Bhanage, Y. Ikushima, M. Shirai, M. Arai*
Tetrahedron Lett.,
40, 1999, 6427-6430.
15.
Heterogeneous catalyst system for Heck reaction using supported ethylene glycol phase Pd/TPPTS catalyst with inorganic base.
B. M. Bhanage, M. Shirai, M. Arai*
J. Mol. Catal. A,
145, 1999, 69-74.
14.
Multiphase catalysis using water soluble metal complexes in supercritical carbon dioxide
B. M. Bhanage, Y. Ikushima, M. Shirai, M. Arai*
Chem. Commun.,
1999, 1277-1278.
13.
Effect of triphenylphosphine concentration on the kinetics of homogeneous Heck reaction in different solvents.
F. G. Zhao, B. M. Bhanage, M. Shirai, M. Arai*
J. Mol. Catal. A,
142, 1999, 383-388.
12.
A Kinetic study of Heck reaction of iodobenzene and methyl acrylate using homogeneous Pd/TPP catalyst.
F. G. Zhao, B. M. Bhanage, M. Shirai, M. Arai*
Stud. Surf. Sci. & Catal.,
122, 1998, 427-430.
11.
Comparison of activity and selectivity of various metal-TPPTS complex catalysts in ethylene glycol-toluene biphasic Heck
vinylation of iodobenzene.
B. M. Bhanage, F. G. Zhao, M. Shirai, M. Arai*
Tetrahedron Lett.,
39, 1998, 9509-9512.
10.
Heck reaction using Nickel/TPPTS catalyst and inorganic base on supported ethylene glycol phase.
B. M. Bhanage, F. G. Zhao, M. Shirai, M. Arai*
Catal. Lett.,
54, 1998, 195-198.
9.
Kinetics of hydroformylation of ethylene in homogeneous organic and aqueous systems.
R. M. Deshpande, B. M. Bhanage, S. S. Divekar, S. Kanagasabapathy, R. V. Chaudhari.
Ind. & Eng. Chem. Res.,
37, 1998, 2391-2396.
8.
Kinetics in biphasic catalysis using ethylene glycol as co‑solvent in hydroformylation of 1‑hexene.
V. S. Nair, B. M. Bhanage, R. M. Deshpande, R. V. Chaudhari*
Stud. Sur. Sci. & Catal.,
113, 1998, 529-539.
7.
Kinetics of hydroformylation of 1‑dodecene using HRh(CO)(PPh3)3 complex catalyst.
B. M. Bhanage, R. M. Deshpande, S. S. Divekar, R.V. Chaudhari*
J. Mol. Catal.,
115, 1997, 247‑257.
6.
Catalysis with soluble complexes in gas liquid liquid systems.
R. V. Chaudhari*, A. Bhattacharya, B.M. Bhanage
Catal. Today,
24, 1995, 123-134.
5.
Enhacement of interfacial catalysis in a biphasic system using catalyst binding ligands.
R. V. Chaudhari*, B. M. Bhanage, R. M. Deshpande, H. Delmas.
NATURE,
373, 1995, 501‑503.
4.
Selectivity in hydroformylation of 1‑decene by homogeneous catalysis
S. S. Divekar, B. M. Bhanage, R. M. Deshpande, R.V. Gholap, R. V. Chaudhari*
J. Mol. Catal.
91, 1994, L1‑L6.
3.
Solvent effects in hydroformylation of 1‑octene using HRh(CO)(PPh3)3 catalyst : Effect of PPh3 addition
on the rate of reaction.
R. M. Deshpande, B. M. Bhanage, S. S. Divekar, R.V. Chaudhari*
J. Mol. Catal.
78, 1993, L37 ‑ L40.
2.
Effect of solvent on the kinetics of hydroformylation of 1-hexene using HRh(CO)(PPh3)3 catalyst
R. M. Deshpande, B. M. Bhanage, S. S. Divekar, R.V. Chaudhari*
J. Mol. Catal.
77, 1992, L13 ‑ L17.
1.
Activity of HRh(CO)(PPh3)3 catalyst in hydroformylation of allyl alcohol: Effect of second
immiscible liquid phase
R. M. Deshpande, S. S. Divekar, B. M. Bhanage, R. V. Chaudhari*
J. Mol. Catal.
75, 1992, L19‑ L22.