?url_ver=Z39.88-2004&rft_id=10.5204%2Fthesis.eprints.244525&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Graphene-based+materials+for+li-ion+capacitors+(LICs)&rft.creator=Alomari%2C+Suaad+Abdullah+A&rft.subject=graphene+oxide&rft.subject=reduced+graphene+oxide&rft.subject=Li-ion+capacitor&rft.subject=energy+density&rft.subject=power+density&rft.subject=rate+capability&rft.subject=cycle+life&rft.description=This+project+focuses+on+developing+high-performance+Li-ion+Capacitors+(LICs)+using+graphene-based+materials.+By+leveraging+supercapacitor+cathode+and+Li-ion+battery+anode%2C+the+LIC+achieves+exceptional+energy+storage+and+power+with+an+extended+lifespan.+The+anode%2C+a+novel+nanoporous+material+blending+nitrogen+doped+reduced+graphene+oxide+and+Siloxene%2C+improves+charge+transfer+kinetics+and+structural+stability.+The+cathode%2C+composed+of+nanoporous+reduced+graphene+oxide+doped+with+nitrogen+and+phosphorous%2C+combined+with+the+anode%2C+empowers+the+LIC+to+deliver+impressive+specific+capacity+and+cycling+performance.+This+advancement+contributes+to+the+goal+of+net-zero+emissions+and+zero-emission+mobility+by+2050.&rft.publisher=Queensland+University+of+Technology&rft.date=2023-11-07&rft.type=Thesis&rft.format=application%2Fpdf&rft.relation=https%3A%2F%2Feprints.qut.edu.au%2F244525%2F1%2FSuaad_Abdullah_A_Alomari_Thesis.pdf&rft.rights=free_to_read&rft.rights=http%3A%2F%2Fcreativecommons.org%2Flicenses%2Fby-nc-nd%2F4.0%2F&rft.relation=doi%3A10.5204%2Fthesis.eprints.244525&rft.relation=Alomari%2C+Suaad+Abdullah+A+(2023)+Graphene-based+materials+for+li-ion+capacitors+(LICs).+PhD+thesis%2C+Queensland+University+of+Technology.&rft.id_number=https%3A%2F%2Feprints.qut.edu.au%2F244525%2F&rft.identifier=Faculty+of+Science%3B+School+of+Chemistry+%26+Physics