|Chemically modified graphene sheets produced by the solvothermal reduction of colloidal dispersions of graphite oxide|
C Nethravathi, M Rajamathi
Carbon 46 (14), 1994-1998, 2008
|Oxide and chalcogenide nanoparticles from hydrothermal/solvothermal reactions|
M Rajamathi, R Seshadri
Current Opinion in Solid State and Materials Science 6 (4), 337-345, 2002
|Ultrafast microwave-assisted route to surfactant-free ultrafine Pt nanoparticles on graphene: synergistic co-reduction mechanism and high catalytic activity|
P Kundu, C Nethravathi, PA Deshpande, M Rajamathi, G Madras, ...
Chemistry of materials 23 (11), 2772-2780, 2011
|Graphene–nanocrystalline metal sulphide composites produced by a one-pot reaction starting from graphite oxide|
C Nethravathi, T Nisha, N Ravishankar, C Shivakumara, M Rajamathi
Carbon 47 (8), 2054-2059, 2009
|Two-Dimensional Nanosheets and Layered Hybrids of MoS2 and WS2 through Exfoliation of Ammoniated MS2 (M = Mo,W)|
A Anto Jeffery, C Nethravathi, M Rajamathi
The Journal of Physical Chemistry C 118 (2), 1386-1396, 2014
|Polymorphism in nickel hydroxide: role of interstratification|
M Rajamathi, PV Kamath, R Seshadri
Journal of Materials Chemistry 10 (2), 503-506, 2000
|Ferrimagnetic nanogranular Co3O4 through solvothermal decomposition of colloidally dispersed monolayers of α-cobalt hydroxide|
C Nethravathi, S Sen, N Ravishankar, M Rajamathi, C Pietzonka, ...
The Journal of Physical Chemistry B 109 (23), 11468-11472, 2005
|N-Doped Graphene–VO2(B) Nanosheet-Built 3D Flower Hybrid for Lithium Ion Battery|
C Nethravathi, CR Rajamathi, M Rajamathi, UK Gautam, X Wang, ...
ACS applied materials & interfaces 5 (7), 2708-2714, 2013
|Highly dispersed ultrafine Pt and PtRu nanoparticles on graphene: formation mechanism and electrocatalytic activity|
C Nethravathi, EA Anumol, M Rajamathi, N Ravishankar
Nanoscale 3 (2), 569-571, 2011
|Functionalized-graphene modified graphite electrode for the selective determination of dopamine in presence of uric acid and ascorbic acid|
M Mallesha, R Manjunatha, C Nethravathi, GS Suresh, M Rajamathi, ...
Bioelectrochemistry 81 (2), 104-108, 2011
|Graphite oxide-intercalated anionic clay and its decomposition to graphene− inorganic material nanocomposites|
C Nethravathi, JT Rajamathi, N Ravishankar, C Shivakumara, ...
Langmuir 24 (15), 8240-8244, 2008
|Chemical synthesis of α-cobalt hydroxide|
M Rajamathi, PV Kamath, R Seshadri
Materials research bulletin 35 (2), 271-278, 2000
|Cobalt hydroxide/oxide hexagonal ring–graphene hybrids through chemical etching of metal hydroxide platelets by graphene oxide: energy storage applications|
C Nethravathi, CR Rajamathi, M Rajamathi, X Wang, UK Gautam, ...
Acs nano 8 (3), 2755-2765, 2014
|Hydrothermal synthesis of a monoclinic VO2 nanotube–graphene hybrid for use as cathode material in lithium ion batteries|
C Nethravathi, B Viswanath, J Michael, M Rajamath
Carbon 50 (13), 4839-4846, 2012
|On the existence of a nickel hydroxide phase which is neither a nor b|
M Rajamathi, GN Subbanna, PV Kamath
Journal of Materials Chemistry 7 (11), 2293, 1997
|The many ways of making anionic clays|
M Rajamathi, GS Thomas, PV Kamath
Journal of Chemical Sciences 113, 671-680, 2001
|Thermal behaviour of hydroxides, hydroxysalts and hydrotalcites|
P Bera, M Rajamathi, MS Hegde, PV Kamath
Bulletin of Materials Science 23, 141-145, 2000
|A solvothermal route to capped nanoparticles of γ-Fe2O3 and CoFe2O4|
S Thimmaiah, M Rajamathi, N Singh, P Bera, F Meldrum, ...
Journal of Materials Chemistry 11 (12), 3215-3221, 2001
|The production of smectite clay/graphene composites through delamination and co-stacking|
C Nethravathi, B Viswanath, C Shivakumara, N Mahadevaiah, ...
Carbon 46 (13), 1773-1781, 2008
|On the relationship between α-nickel hydroxide and the basic salts of nickel|
M Rajamathi, PV Kamath
Journal of power sources 70 (1), 118-121, 1998