Hannes C.H.C.SchnieppHannes C.H.C. i inni, Functionalized Single Graphene Sheets Derived from Splitting Graphite Oxide, „The Journal of Physical Chemistry B”, 110 (17), 2006, s. 8535–8539, DOI: 10.1021/jp060936f, ISSN1520-6106.
Rajesh KumarR.K.SinghRajesh KumarR.K., RajeshR.KumarRajeshR., Dinesh PratapD.P.SinghDinesh PratapD.P., Graphene oxide: strategies for synthesis, reduction and frontier applications, „RSC Advances”, 6 (69), 2016, s. 64993–65011, DOI: 10.1039/C6RA07626B, ISSN2046-2069(ang.).
AntonA.LerfAntonA. i inni, Structure of Graphite Oxide Revisited, „The Journal of Physical Chemistry B”, 102 (23), 1998, s. 4477–4482, DOI: 10.1021/jp9731821, ISSN1520-6106.
AdrianaA.Ibarra-HernándezAdrianaA., AlejandroA.Vega-RiosAlejandroA., VeliaV.OsunaVeliaV., Synthesis of Graphite Oxide with Different Surface Oxygen Contents Assisted Microwave Radiation, „Nanomaterials”, 8 (2), 2018, s. 106, DOI: 10.3390/nano8020106, PMID: 29438280, PMCID: PMC5853737(ang.).
ChuangangCh.HuChuangangCh. i inni, Functionalization of graphene materials by heteroatom-doping for energy conversion and storage, „Progress in Natural Science: Materials International”, 28 (2), 2018, s. 121–132, DOI: 10.1016/j.pnsc.2018.02.001, ISSN1002-0071.
Vadim V.V.V.NeklyudovVadim V.V.V. i inni, New insights into the solubility of graphene oxide in water and alcohols, „Physical Chemistry Chemical Physics”, 19 (26), 2017, s. 17000–17008, DOI: 10.1039/C7CP02303K, ISSN1463-9076(ang.).
DaD.ChenDaD., HongbinH.FengHongbinH., JinghongJ.LiJinghongJ., Graphene Oxide: Preparation, Functionalization, and Electrochemical Applications, „Chemical Reviews”, 112 (11), 2012, s. 6027–6053, DOI: 10.1021/cr300115g, ISSN0009-2665.
Kian PingK.P.LohKian PingK.P. i inni, Graphene oxide as a chemically tunable platform for optical applications, „Nature Chemistry”, 2 (12), 2010, s. 1015–1024, DOI: 10.1038/nchem.907, ISSN1755-4349(ang.).
AnnaA.JabłońskaAnnaA. i inni, Reduced Graphene Oxide for Biosensing and Electrocatalytic Applications, John Wiley & Sons, Ltd, 2019, s. 143–179, DOI: 10.1002/9781119468455.ch93, ISBN 978-1-119-46845-5(ang.).
AnnaA.JablonskaAnnaA. i inni, Graphene and Graphene Oxide Applications for SERS Sensing and Imaging, „Current Medicinal Chemistry”, 25, 2018, DOI: 10.2174/0929867325666181004152247(ang.).
Andrew T.A.T.SmithAndrew T.A.T. i inni, Synthesis, properties, and applications of graphene oxide/reduced graphene oxide and their nanocomposites, „Nano Materials Science”, 1 (1), 2019, s. 31–47, DOI: 10.1016/j.nanoms.2019.02.004, ISSN2589-9651.
DebasishD.SenguptaDebasishD., SujitS.GhoshSujitS., BasudebB.BasuBasudebB., Advances and Prospects of Graphene Oxide (GO) as Heterogeneous ‘Carbocatalyst’, „Current Organic Chemistry”, 21 (9), 2017, s. 834–854, DOI: 10.2174/1385272820666161021102757(ang.).
Artur T.A.T.DideikinArtur T.A.T., Alexander Y.A.Y.Vul’Alexander Y.A.Y., Graphene Oxide and Derivatives: The Place in Graphene Family, „Frontiers in Physics”, 6, 2019, DOI: 10.3389/fphy.2018.00149, ISSN2296-424X(ang.).
nih.gov
ncbi.nlm.nih.gov
AdrianaA.Ibarra-HernándezAdrianaA., AlejandroA.Vega-RiosAlejandroA., VeliaV.OsunaVeliaV., Synthesis of Graphite Oxide with Different Surface Oxygen Contents Assisted Microwave Radiation, „Nanomaterials”, 8 (2), 2018, s. 106, DOI: 10.3390/nano8020106, PMID: 29438280, PMCID: PMC5853737(ang.).
worldcat.org
Hannes C.H.C.SchnieppHannes C.H.C. i inni, Functionalized Single Graphene Sheets Derived from Splitting Graphite Oxide, „The Journal of Physical Chemistry B”, 110 (17), 2006, s. 8535–8539, DOI: 10.1021/jp060936f, ISSN1520-6106.
Rajesh KumarR.K.SinghRajesh KumarR.K., RajeshR.KumarRajeshR., Dinesh PratapD.P.SinghDinesh PratapD.P., Graphene oxide: strategies for synthesis, reduction and frontier applications, „RSC Advances”, 6 (69), 2016, s. 64993–65011, DOI: 10.1039/C6RA07626B, ISSN2046-2069(ang.).
AntonA.LerfAntonA. i inni, Structure of Graphite Oxide Revisited, „The Journal of Physical Chemistry B”, 102 (23), 1998, s. 4477–4482, DOI: 10.1021/jp9731821, ISSN1520-6106.
ChuangangCh.HuChuangangCh. i inni, Functionalization of graphene materials by heteroatom-doping for energy conversion and storage, „Progress in Natural Science: Materials International”, 28 (2), 2018, s. 121–132, DOI: 10.1016/j.pnsc.2018.02.001, ISSN1002-0071.
Vadim V.V.V.NeklyudovVadim V.V.V. i inni, New insights into the solubility of graphene oxide in water and alcohols, „Physical Chemistry Chemical Physics”, 19 (26), 2017, s. 17000–17008, DOI: 10.1039/C7CP02303K, ISSN1463-9076(ang.).
DaD.ChenDaD., HongbinH.FengHongbinH., JinghongJ.LiJinghongJ., Graphene Oxide: Preparation, Functionalization, and Electrochemical Applications, „Chemical Reviews”, 112 (11), 2012, s. 6027–6053, DOI: 10.1021/cr300115g, ISSN0009-2665.
Kian PingK.P.LohKian PingK.P. i inni, Graphene oxide as a chemically tunable platform for optical applications, „Nature Chemistry”, 2 (12), 2010, s. 1015–1024, DOI: 10.1038/nchem.907, ISSN1755-4349(ang.).
Andrew T.A.T.SmithAndrew T.A.T. i inni, Synthesis, properties, and applications of graphene oxide/reduced graphene oxide and their nanocomposites, „Nano Materials Science”, 1 (1), 2019, s. 31–47, DOI: 10.1016/j.nanoms.2019.02.004, ISSN2589-9651.
Artur T.A.T.DideikinArtur T.A.T., Alexander Y.A.Y.Vul’Alexander Y.A.Y., Graphene Oxide and Derivatives: The Place in Graphene Family, „Frontiers in Physics”, 6, 2019, DOI: 10.3389/fphy.2018.00149, ISSN2296-424X(ang.).
