Oxidation of graphite by different modified Hummers methods

Brodie, 1860, Sur le poids atomique du graphite [J], Annales des Chimie et des Physique, 59, 466

Geim, 2009, Graphene: status and prospects [J], Science, 324, 1530, 10.1126/science.1158877

Dreyer, 2010, The chemistry of graphene oxide [J], Chemical Society Reviews, 39, 228, 10.1039/B917103G

Hofmann, 1939, Uber die Surenatur und die methylierung von graphitoxyd [J], Chemischen Gesellschaft B, 72, 754

Ruess, 1946, Uber das Graphitoxyhydroxyd (Graphitoxyd) [J], Monatshefte fur Chemie, 76, 381, 10.1007/BF00898987

He, 1998, A new structural model for graphite oxide [J], Chemical Physics Letters, 287, 53, 10.1016/S0009-2614(98)00144-4

Botas, 2012, The effect of the parent graphite on the structure of graphene oxide [J], Carbon, 50, 275, 10.1016/j.carbon.2011.08.045

Botas, 2013, Graphene materials with different structures prepared from the same graphite by the Hummers and Brodie methods [J], Carbon, 65, 156, 10.1016/j.carbon.2013.08.009

Chandra, 2010, A novel synthesis of graphene by dichromate oxidation [J], Materials Science and Engineering B, 167, 133, 10.1016/j.mseb.2010.01.029

Chua, 2012, Graphite oxides: Effects of permanganate and chlorate oxidants on the oxygen composition [J], Chemistry – A European Journal, 18, 13453, 10.1002/chem.201202320

Rodriguez-Pastor, 2015, Towards the understanding of the graphene oxide structure: How to control the formation of humic-and fulvic-like oxidized debris [J], Carbon, 84, 299, 10.1016/j.carbon.2014.12.027

Moo, 2014, Graphene oxides prepared by Hummers, Hofmann's, and Staudenmaier's methods: Dramatic influences on heavy-metal-ion adsorption [J], ChemPhysChem, 15, 2922, 10.1002/cphc.201402279

Seredych, 2010, Graphite oxides obtained from porous graphite: the role of surface chemistry and texture in ammonia retention at ambient conditions [J], Advanced Functional Materials, 20, 1670, 10.1002/adfm.201000061

Poh, 2012, Graphenes prepared by Staudenmaier, Hofmann and Hummers methods with consequent thermal exfoliation exhibit very different electrochemical properties [J], Nanoscale, 4, 3515, 10.1039/c2nr30490b

Hummers W S. US Patent No 2 798 878[P]. United States Patent Office, 1954.

Nekahi, 2014, Transparent conductive thin film of ultra large reduced graphene oxide monolayers [J], Applied Surface Science, 295, 59, 10.1016/j.apsusc.2014.01.004

Drewniak, 2015, Investigations of selected physical properties of graphite oxide and thermally exfoliated/reduced graphene oxide in the aspect of their applications in photonic gas sensors [J], Photonics Letters of Poland, 7, 47, 10.4302/plp.2015.2.06

Hummers, 1958, Preparation of hraphitic oxide [J], Journal of the American Chemical Society, 80, 1339, 10.1021/ja01539a017

Jeong, 2008, Unoccupied electronic states in graphite oxides [J], Chemical Physical Letters, 460, 499, 10.1016/j.cplett.2008.06.042

Fan, 2014, Hydrothermal synthesis and activation of graphene-incorporated nitrogen-rich carbon composite for high-performance supercapacitors [J], Carbon, 70, 130, 10.1016/j.carbon.2013.12.081

Acik, 2011, The role of oxygen during thermal reduction of graphene oxide studied by infrared absorption spectroscopy [J], The Journal of Physical Chemisty C, 115, 19761, 10.1021/jp2052618