Rueda-Gensini, et al.
           59.  Liu S, Mou S, Zhou C, et al., 2018, Off-the-Shelf Biomimetic   of Graphene-Based Materials and its Applications in Related
               Graphene  OxideCollagen  Hybrid  Scaffolds  Wrapped  with   Devices. Chem Soc Rev, 47:1822–73.
               Osteoinductive Extracellular Matrix for the Repair of Cranial   74.  Muzyka  R,  Drewniak  S,  Pustelny  T,  et al.,  2018,
               Defects in Rats. ACS Appl Mater Interfaces, 10: 42948–58.  Characterization of Graphite Oxide and Reduced Graphene
           60.  Rahman MM, Byanju B, Grewell D, et al., 2020, High-power   Oxide  Obtained  from  Different  Graphite  Precursors and
               Sonication  of  Soy  Proteins:  Hydroxyl  Radicals  and  their   Oxidized by Different Methods Using Raman Spectroscopy.
               Effects on Protein Structure. Ultrason Sonochem, 64:105019.  Materials, 11:1050.
           61.  Fratzl  P,  2008,  Collagen:  Structure  and  mechanics  an   75.  Marsden  AJ,  Papageorgiou  DG,  Vallés  C,  et  al.,  2018,
               introduction. In: Collagen. Springer, United States, p1–13.  Electrical Percolation in Graphene-polymer Composites. 2D
           62.  Mane  NC,  Ponrathnam  S,  2016,  Effect  of  Chemical   Materials, 5:032003.
               Crosslinking  on  Properties  of  Polymer  Microbeads:  A   76.  Rao  S,  Upadhyay  J,  Polychronopoulou  K,  et al.,  2018,
               Review. Can Chem Trans, 3:473–85.                   Reduced Graphene Oxide: Effect of Reduction on Electrical
           63.  Huang  R,  Choe  E,  Min  DB,  2006,  Kinetics  for  Singlet   Conductivity. J Compos Sci, 2:25.
               Oxygen Formation by Riboflavin Photosensitization and the   77.  Mohan  VB,  Brown  R,  Jayaraman  K,  et al.,  2015,
               Reaction  between  Riboflavin  and  Singlet  Oxygen.  J Food   Characterisation  of  Reduced  Graphene  Oxide:  Effects  of
               Sci, 69:C726–32.                                    Reduction  Variables  on  Electrical  Conductivity.  Mater Sci
           64.  Jiang T,  Munguia-Lopez  JG,  Flores-Torres  S,  et al.,  2019,   Eng B, 193:49–60.
               Extrusion  Bioprinting  of  Soft  Materials:  An  Emerging   78.  Kim M, Lee C, Jang J, 2013, Fabrication of Highly Flexible
               Technique for Biological Model Fabrication. Appl Phys Rev,   Scalable,  and  High-Performance  Supercapacitors  Using
               6:011310.                                           Polyaniline/Reduced  Graphene  Oxide  Film  with Enhanced
           65.  Wilson  SA,  Cross  LM,  Peak  CW,  et  al.,  2017,  Shear-  Electrical Conductivity and Crystallinity. Adv Funct Mater,
               Thinning  and  Thermo-Reversible  Nanoengineered  Inks  for   24:2489–99.
               3D Bioprinting. ACS Appl Mater Interfaces, 9:43449–58.  79.  Lang  Q,  Wu  Y,  Ren  Y,  et al.,  2015,  AC  Electrothermal
           66.  Liu F, Gao Y, Li H, et al., 2014, Interaction of Propidium   Circulatory Pumping Chip for Cell Culture. ACS Appl Mater
               Iodide with Graphene Oxide and its Application for Live Cell   Interfaces, 7:26792–801.
               Staining. Carbon, 71: 190–5.                    80.  Adams  TN,  Turner  PA,  Janorkar  AV,  et al.,  2014,
           67.  Mironi-Harpaz  I,  Wang  DY,  Venkatraman  S,  et  al.,  2012,   Characterizing  the Dielectric  Properties of Human
               Photopolymerization  of Cell-encapsulating  Hydrogels:   Mesenchymal Stem Cells and the Effects of Charged Elastin-
               Crosslinking Efficiency Versus Cytotoxicity. Acta Biomater,   Like Polypeptide Copolymer Treatment. Biomicrofluidics, 8:
               8:1838–48.                                          054109.
           68.  Lock JG, Wehrle-Haller B, Strömblad S, 2008, Cell-Matrix   81.  Cho  S,  Thielecke  H,  2008,  Electrical  Characterization  of
               Adhesion Complexes:  Master Control Machinery of Cell   Human Mesenchymal Stem Cell Growth on Microelectrode.
               Migration. Semin Cancer Biol, 18:65–76.             Microelectron Eng, 85:1272–4.
           69.  Kumar S, Parekh SH, 2020, Linking Graphene-based Material   82.  Walker  BW,  Lara  RP,  Mogadam  E,  et al.,  2019,  Rational
               Physicochemical  Properties  with Molecular  Adsorption   Design of Microfabricated Electroconductive Hydrogels for
               Structure and Cell Fate. Commun Chem, 3:8.          Biomedical Applications. Prog Polym Sci, 92:135–57.
           70.  Singh  RK,  Kumar  R,  Singh  DP,  2016,  Graphene  Oxide:   83.  Barlian  A,  Judawisastra  H,  Alfarafisa  NM,  et  al,  2018,
               Strategies for Synthesis Reduction and Frontier Applications.   Chondrogenic   Differentiation   of   Adipose-derived
               RSC Adv, 6:64993–5011.                              Mesenchymal Stem Cells Induced by L-Ascorbic Acid and
           71.  Choi KM, Seo YK, Yoon HH, et al., 2008, Effect of Ascorbic   Platelet Rich Plasma on Silk Fibroin Scaffold. PeerJ, 6:e5809.
               Acid  on  Bone  Marrow-derived  Mesenchymal  Stem  Cell   84.  Kumar A,  Nune  KC,  Misra  RD,  2016,  Understanding  the
               Proliferation and Differentiation. J Biosci Bioeng, 105:586–94.  Response of Pulsed Electric Field on Osteoblast Functions
           72.  Khalili D, 2016, Graphene Oxide: A Promising Carbocatalyst   in  Three-dimensional  Mesh  Structures.  J  Biomater  Appl,
               for  the  Regioselective  Thiocyanation  of  Aromatic  Amines   31:594–605.
               Phenols,  Anisols and  Enolizable  Ketones  by Hydrogen   85.  Ross  CL,  2016,  The  Use  of  Electric  Magnetic,  and
               Peroxide/KSCN in Water. New J Chem, 40:2547–53.     Electromagnetic Field for Directed Cell Migration and
           73.  Wu JB, Lin ML, Cong X, et al., 2018, Raman Spectroscopy   Adhesion in Regenerative Medicine. Biotechnol Prog, 33:5–16.

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