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Monday, 14 March 2016

Dr. Trupti Kotbagi, Chief Scientist at ThruPore Technologies LLC


Dr. Trupti Kotbagi

Chief Scientist at ThruPore Technologies LLC

THRUPORE TECHNOLOGIES, LLC

THRUPORE TECHNOLOGIES, LLC

1118 CANYON ROAD N 
TUSCALOOSA, AL 35406
Phone 1: 205-752-2800
Established: 2012-07-15


Links
https://www.facebook.com/trupti.kotbagi
https://in.linkedin.com/in/dr-trupti-kotbagi-8857b92a
http://nclwebapps.ncl.res.in/sbumbarkar/files/group.html
https://www.researchgate.net/profile/Trupti_Kotbagi/info
https://scholar.google.co.in/citations?user=vYi6_sYAAAAJ&hl=en
https://alabama.academia.edu/TruptiKotbagi
https://plus.google.com/103219087347874362848/about
https://www.youtube.com/user/checkmeout8889



Trupti V Kotbagi

Currently, she is working as a postdoctoral research associate in the chemistry department of The University of Alabama
Biography
Dr Trupti V. Kotbagi has received her PhD in Chemistry from National Chemical Laboratory affiliated to the University of Pune, Pune, India under the guidance of Dr. Mohan Dongare. During her doctoral studies she worked on the project entitled ‘Synthesis of fine chemicals on renewables using supported metal oxides as catalysts’ which exclusively involved the synthesis and characterization of supported metal oxides and their applications as solid catalysts in valorization of glycerol. She had gained expertise in the field of heterogeneous catalysis, sol-gel chemistry, continuous reactors, handling and analysis of different physicochemical, microscopic and spectroscopic techniques. During her Ph.D., she has worked on collaborative projects with Institüt Für Chémie, Humboldt University, Berlin, Germany and University of Lille, Lille, France. Currently, she is working as a postdoctoral research associate in the chemistry department of The University of Alabama
Research Interest
synthesis and characterization of various hierarchically porous monolithic materials and screening their activity as heterogeneous catalysts under batch and flow conditions

Experience




Chief Scientist

ThruPore Technologies LLC
– Present (6 months)Tuscaloosa, Alabama Area







Postdoctoral Research Associate


The Alabama University
– Present (2 years 3 months)Tuscloosa, Alabama, USA
Synthesis and characterization of hierarchically porous carbon supported transition metals and metal oxides for various catalytic reactions






Senior research fellow

National Chemical Laboratory
– Present (3 years 8 months)Pune Area, India





research fellow

Natinal chemical laboratory
(7 years 4 months)






Project Assistant

National Chemical Laboratory
(2 years 8 months)Pune




Education






University of Pune

Doctor of Philosophy (Ph.D.), Chemistry

St. joseph's highschool

 

 

 

 

Acetalization of glycerol using mesoporous MoO3/SiO2 solid acid catalyst
EP S. B. Umbarkar, T. V. Kotbagi, A. V. Biradar, R
Journal of molecular catalysis A: Chemical 310, 150-158
702009Selective N-oxidation of aromatic amines to nitroso derivatives using a molybdenum acetylide oxo-peroxo complex as catalyst
SBU A. V. Biradar, T. V. Kotbagi, M. K. Dongare
Tetrahedron letters 49, 3616-3619
282008One-Pot Synthesis of 2, 4, 5-trisubstituted imidazoles using MoO3/SiO2, an efficient and recyclable catalyst
MKD S. V. Bhosale, M. B. Kalyankar, S. V. Nalage, D. S
Synthetic communications 41 (5), 762-769
172011Transesterification of Diethyl Oxalate with Phenol over Sol–Gel MoO3/TiO2 Catalysts
FD T. V. Kotbagi, D-L. Nguyen, C. Lancelot, C
Chemsuschem 5, 1467-1473
102012Isolation, characterization and identification of catalytically active species in MoO3/SiO2 catalyst during solid acid catalyzed reactions
MKD T. V. Kotbagi, A. V. Biradar, S. B. Umbarkar
Chemcatchem 5 (6), 1531-1537
52013Catalytic Activity of Ag/SiO2 and Ag/Co3O4 Hierarchically Porous Monoliths for Hydrogenation of Dyes
TVKMGB Yasemin Hakat
Current Catalysis 3 (3)
32014Selective oxidation of nonrefractory and refractory sulfides by cyclopentadienyl molybdenum acetylide complexes as efficient catalysts
SBU M. G. Chandgude, A. V. Biradar, T. V. Kotbagi, V
Catalysis letters 142, 1352-1360
32012One-pot sol-gel preparation for efficient cobalt molybdenum-TiO2 hydrotreating catalysts
CL D-L. Nguyen, S. Gillot, D. O. Souza, P. Blanchard
Chemcatchem 4, 2112-2120
2*2012Novel one-pot synthesis of hierarchically porous Pd/C monoliths by a co-gelation method
TV Kotbagi, Y Hakat, MG Bakker
MRS Communications 5 (01), 51-56
12015Ag/SiO2-and Ag/Co3O4-Based Monolithic Flow Microreactors for Hydrogenation of Dyes: Their Activity and Stability
Y Hakat, TV Kotbagi, MG Bakker
Processes 3 (1), 98-112
12015Silver supported on hierarchically porous SiO 2 and Co 3 O 4 monoliths: Efficient heterogeneous catalyst for oxidation of cyclohexene
Y Hakat, TV Kotbagi, MG Bakker
Journal of Molecular Catalysis A: Chemical 411, 61-71
 2016In situ Formed Supported Silicomolybdic Heteropolyanions: Efficient Solid Catalyst for Acetylation of Glycerol
MKDSBU Trupti V Kotbagi, Swati L Pandhare
J Environ Anal Chem 2 (5)
 2015Facile one-pot synthesis and characterization of nickel supported on hierarchically porous carbon
MGB Trupti V. Kotbagi, Yasemin Hakat
Materials Research Bulletin 73, 204–210
 2015Synthesis, Characterization and Catalytic Activity of Molybdenum Oxide Supported Zirconia Catalysts for Solvent-free Synthesis of Chalcones
MDNKJW Tejas R. Gaydhankar, Trupti V. Kotbagi
Current Catalysis 3 (3)
 2014Synthesis of fine chemicals from renewables using supported metal oxides as catalysts
TV Kotbagi
CSIR-National Chemical Laboratory, Pune, India
 2013Copper exchanged SiO2/Al2O3 catalyst prepared by sol-gel method for intermolecular hydroamination of terminal alkynes
SBU S. L. Pandhare, T. V. Kotbagi, M. K. Dongare
Current catalysis 2, 62-69
 2013

Novel one-pot synthesis of hierarchically porous Pd/C monoliths by a co-gelation method

Trupti V. Kotbagia1, Yasemin Hakata1 and Martin G. Bakkera1 c1

a1 Department of Chemistry, The University of Alabama, Tuscaloosa, Alabama 35487-0336

Abstract
Described is a simple one-pot route for the synthesis of hierarchically porous carbon supported palladium (Pd/C) monoliths with a three-dimensional pore network via self-assembly under basic conditions of a resol polymer. Textural and morphological characterization of the Pd/C monoliths was carried out using nitrogen sorption analysis and scanning electron microscope. Formation of Pd nanoparticles ranging from 35 to 60 nm was observed. Evaluation of catalytic activity for styrene hydrogenation was performed using the Pd/C material as heterogeneous catalyst in batch mode. Studies revealed that the monoliths showed leaching and catalytic activity similar to a commercial Pd/C catalyst.
(Received October 16 2014)
(Accepted February 17 2015)
Correspondence
c1 Address all correspondence to Prof. Martin Bakker at bakker@ua.edu
Trupti Kotbagi

















Full Paper

Isolation, Characterization, and Identification of Catalytically Active Species in the MoO3/SiO2 Catalyst during Solid Acid Catalyzed Reactions

Authors

Abstract

We report the isolation, characterization, and identification of the catalytically active species formed during various acid-catalyzed reactions if silica-supported MoO3 was used as a catalyst. We have reported previously the synthesis and extensive characterization of the silica-supported MoO3catalyst prepared by the sol–gel process with ammonium heptamolybdate and ethyl silicate-40 as molybdenum and silica precursors, respectively. The TEM images showed uniformly distributed MoO3 nanoparticles on the high-surface area mesoporous silica support and high acidity (0.9 mmol g−1) by using temperature-programmed desorption of ammonia (NH3-TPD) analysis. This catalyst has already shown high activity for various acid-catalyzed reactions. To understand the nature of catalytically active species formed during the reaction, the liquid-phase esterification of acetic acid and ethanol was studied as a probe reaction with very high acid conversion (83 %) in 8 h. During esterification, the reaction mixture turned blue, which indicated a change in the nature of the catalyst under reaction conditions. These catalytically active species formed in the reaction mixture were isolated and extensively characterized by using FTIR, Raman, powder XRD, BET surface area, NH3-TPD, energy dispersive X-ray, and TEM analysis. The characterization results revealed the in situ formation of silicomolybdic acid on the silica surface in the presence of water, which acts as catalytically active species responsible for the acid-catalyzed reactions.

 
 

 

St. joseph's high school,  Solapur, Maharashtra, India



Tuscaloosa
    Tuscaloosa
    City in Alabama
    Tuscaloosa is a city in and the seat of Tuscaloosa County in west central Alabama. Located on the Black Warrior River, it is the fifth-largest city in Alabama, with an estimated population of 95,334 in 2013.Wikipedia
Map of Tuscaloosa Alabama






Solapur, Maharashtra, India

    Solapur
    City in India
    Solapur is a city located in the south-eastern region of Indian state of Maharashtra. Solapur is located on major road and rail routes between Mumbai and Hyderabad, with a branch line to the cities of ... Wikipedia
Map of Solapur India



















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