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Materials Science in Additive Manufacturing Union of 2D nanomaterials and 3D printing

16. Novoselov KS, Geim AK, Morozov SV, et al., 2004, Electric Characterisation of reduced graphene oxide: Effects of
field effect in atomically thin carbon films. Science, reduction variables on electrical conductivity. Mater Sci Eng
306: 666–669. B, 193: 49–60.
https://doi.org/10.1126/science.1102896 31. Karthika V, AlSalhi MS, Devanesan S, et al., 2020, Chitosan
overlaid Fe O /rGO nanocomposite for targeted drug delivery,
17. Li X, Cai W, An J, et al., 2009, Large-area synthesis of high- 3 4
quality and uniform graphene films on copper foils. Science, imaging, and biomedical applications. Sci Rep, 10: 18912.
324: 1312–1314. 32. Shin SR, Zihlmann C, Akbari M, et al., 2016, Reduced
graphene oxide‐gelMA hybrid hydrogels as scaffolds for
https://doi.org/10.1126/science.1171245
cardiac tissue engineering. Small, 12: 3677–3689.
18. Anurag K, Kumar S, 2021, Synthesis of graphene through 33. Reiner-Rozman C, Kotlowski C, Knoll W, 2016, Electronic
electrochemical exfoliation technique in aqueous medium. biosensing with functionalized rGO FETs. Biosensors
Mater Today Proc, 44: 2695–2699.
(Basel), 6: 17.
19. Saeed M, Alshammari Y, Majeed SA, et al., 2020, Chemical https://doi.org/10.3390/bios6020017
vapour deposition of graphene-Synthesis, characterisation,
and applications: A review. Molecules, 25: 3856. 34. Favron A, Gaufrès E, Fossard F, et al., 2015, Photooxidation
and quantum confinement effects in exfoliated black
https://doi.org/10.3390/molecules25173856
phosphorus. Nat Mater, 14: 826–832.
20. Mao X, Zhu L, Liu H, et al., 2019, Synthesis of graphene via https://doi.org/10.1038/nmat4299
electrochemical exfoliation in different electrolytes for direct
electrodeposition of a Cu/graphene composite coating. RSC 35. Castellanos-Gomez A, Vicarelli L, Prada E, et al., 2014,
Adv, 9: 35524–35531. Isolation and characterization of few-layer black phosphorus.
2D Mater, 1: 025001.
21. Koehler FM, Stark WJ, 2013, Organic synthesis on graphene.
Acc Chem Res, 46: 2297–2306. 36. Gobre VV, Tkatchenko A, 2013, Scaling laws for van
der Waals interactions in nanostructured materials. Nat
https://doi.org/10.1021/ar300125w Commun, 4: 2341.
22. Sun L, 2019, Structure and synthesis of graphene oxide. Chin https://doi.org/10.1038/ncomms3341
J Chem Eng, 27: 2251–2260.
37. Ling X, Wang H, Huang S, et al., 2015, The renaissance of
23. Priyadarsini S, Mohanty S, Mukherjee S, et al., 2018, black phosphorus. Proc Natl Acad Sci U S A, 112: 4523–4530.
Graphene and graphene oxide as nanomaterials for medicine
and biology application. J Nanostructure Chem, 8: 123–137. https://doi.org/10.1073/pnas.1416581112
24. Filho JS, Venancio E, Silva S, et al., 2020, A thermal method 38. Li L, Yu Y, Ye GJ, et al., 2014, Black phosphorus field-effect
for obtention of 2 to 3 reduced graphene oxide layers from transistors. Nat Nanotechnol, 9: 372–377.
graphene oxide. SN Appl Sci, 2: 1450. https://doi.org/10.1038/nnano.2014.35
25. Zhou Y, Bao Q, Tang LAL, et al., 2009, Hydrothermal 39. Engel M, Steiner M, Avouris P, 2014, Black phosphorus
dehydration for the “green” reduction of exfoliated graphene photodetector for multispectral, high-resolution imaging.
oxide to graphene and demonstration of tunable optical Nano Lett, 14: 6414–6417.
limiting properties. Chem Mater, 21: 2950–2956.
https://doi.org/10.1021/nl502928y
26. Ai L, Zhang C, Chen Z, 2011, Removal of methylene blue from
aqueous solution by a solvothermal-synthesized graphene/ 40. Batmunkh M, Bat‐Erdene M, Shapter JG, 2018, Black
magnetite composite. J Hazard Mater, 192: 1515–1524. phosphorus: Synthesis and application for solar cells. Adv
Energy Mater, 8: 1701832.
27. Cote LJ, Cruz-Silva R, Huang J, 2009, Flash reduction and
patterning of graphite oxide and its polymer composite. 41. Qiu M, Sun Z, Sang D, et al., 2017, Current progress in
J Am Chem Soc, 131: 11027–11032. black phosphorus materials and their applications in
electrochemical energy storage. Nanoscale, 9: 13384–13403.
https://doi.org/10.1021/ja902348k
42. Cho SY, Lee Y, Koh HJ, et al., 2016, Superior chemical
28. Akhavan O, 2011, Photocatalytic reduction of graphene sensing performance of black phosphorus: comparison with
oxides hybridized by ZnO nanoparticles in ethanol. Carbon, MoS2 and graphene. Adv Mater, 28: 7020–7028.
49: 11–18.
https://doi.org/10.1002/adma.201601167
29. Kim YK, Kim MH, Min DH, 2011, Biocompatible reduced
graphene oxide prepared by using dextran as a multifunctional 43. Chen W, Ouyang J, Liu H, et al., 2017, Black phosphorus
nanosheet‐based drug delivery system for synergistic
reducing agent. Chem Commun, 47: 3195–3197.
photodynamic/photothermal/chemotherapy of cancer. Adv
30. Mohan VB, Brown R, Jayaraman K, et al., 2015, Mater, 29: 1603864.

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