Organic Chemistry 2018

Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

Page 34

August 16-17, 2018

Dublin, Ireland

6

th

Edition of International

Conference and Exhibition on

Organic Chemistry

A

dvanced nanocomposites have contributed to catalysis and

are prime choice for the researchers in various important

catalytic protocols and benign conversions. The nanocatalysts

include

magnetic-nanocomposites,

carbon-based

nanomaterials, core-shell (Pd@Pt) catalysts and morphology-

dependent iron oxides. Sustainable nanotechnology

improvements over the years have recommended significant

and extraordinary series of progresses in the design of

heterogeneous nanocatalysts. Notably, nanomaterials for

catalysis can now be envisioned and organized with need

for exact catalytic applications. Core-shell nanocomposites,

morphology-dependent iron oxide and metal supported

nanoparticles can be synthesized via more ecological paths

with distinctive structure, morphology and composition. Our

recent research activity on the practice of nanomaterials/

nanocatalyst and its catalytic applications will be highlighted.

Recent Publications

1. Gawande M B et al. (2014) Microwave-assisted

chemistry: synthetic applications for rapid assembly

of nanomaterials and organics. Account of Chemical

Research. 47(4):1338-1348.

2. Gawande M B, Branco P S and Varma R S (2013) Nano-

magnetite (Fe3O4) as a support for recyclable catalysts

in the development of sustainable methodologies.

Chemical Society Reviews. 42(8):3371-3393.

3. Gawande M B et al. (2015) Core–shell nanoparticles:

synthesis and applications in catalysis and

electrocatalysis. Chemical SocietyReviews. 44(21):7540-

7590.

4. Goswami Aet al. (2017) InSitugenerationof Pd–Pt core–

shell nanoparticles on reduced graphene oxide (Pd@Pt/

rGO) using microwaves: applications in dehalogenation

reactions and reduction of olefins. ACS Applied Material

and Interfaces. 9(3):2815-2824.

Biography

Manoj B Gawande pursued his PhD Degree in Chemistry in 2008 from the

Institute of Chemical Technology, Matunga, Mumbai, India. After several re-

search stints in Germany, South Korea, Portugal, Singapore, and England

presently, he is working as an Associate Professor and Head of Nanocataly-

sis Group at RCPTM, Faculty of Science, Palacky University, Olomouc, Czech

Republic. His research interests include: nanocatalysis and advanced nano-

materials and their applications. He is currently supervising several Doctoral

students and Postdoctoral workers. He has published over 90 scientific pub-

lications, including reviews, patents, editorials, and articles. In 2017, he was

admitted as a Fellow of Royal Society of Chemistry (RSC), UK.

manoj.gawande@upol.cz

Nanocatalysis by sustainable advanced materials

Manoj B Gawande

Regional Centre of Advanced Technologies and Materials Palacky University, Czech Republic

Manoj B Gawande, J Org Inorg Chem 2018, Volume 4

DOI: 10.21767/2472-1123-C4-011