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109. M. Terrones et al., Nano Today, 5, 351 (2010). 110. Z. Chen, T. Huang, B. C. Jin, J. Hu, H. Lu, and S. Nutt, Carbon, 68, 167 (2014). 111. S. Kim, K. C. Kwon, J. Y. Park, H. W. Cho, I. Lee, S. Y. Kim, and J.-L. Lee, ACS Appl. Mater. Interfaces, 8, 12932 (2016). 112. P. Tian, L. Tang, K. S. Teng, and S. P. Lau, Mater. Today Chem., 10, 221 (2018). 113. N. Ansari, F. Nazari, and F. Illas, Phys. Chem. Chem. Phys., 16, 21473 (2014). 114. Z. Liang, Z. Xu, T. Yan, and F. Ding, Nanoscale, 6, 2082 (2014). 115. Q. Zheng and J.-K. Kim, Graphene for Transparent Conductors (Springer New York, New York, NY) p. 29 (2015), http://link.springer.com/10.1007/978-1-4939- 2769-2_2. 116. L. Liu, M. Qing, Y. Wang, and S. Chen, J. Mater. Sci. Technol., 31, 599 (2015). 117. S. Malola, H. Häkkinen, and P. Koskinen, Phys. Rev. B, 81, 165447-1 (2010), https://link.aps.org/doi/10.1103/PhysRevB.81.165447. 118. J. C. Meyer, C. Kisielowski, R. Erni, M. D. Rossell, M. F. Crommie, and A. Zettl, Nano Lett., 8, 3582 (2008). 119. G. Cantele, Y.-S. Lee, D. Ninno, and N. Marzari, Nano Lett., 9, 3425 (2009). 120. P. A. Denis and F. Iribarne, J. Phys. Chem. C, 117, 19048 (2013). 121. J. Y. Lim, N. M. Mubarak, E. C. Abdullah, S. Nizamuddin, M. Khalid, and I. Inamuddin, J. Ind. Eng. Chem., 66, 29 (2018). 122. M. Taghioskoui, Mater. Today, 12, 34 (2009). 123. M. S. A. Bhuyan, M. N. Uddin, M. M. Islam, F. A. Bipasha, and S. S. Hossain, Int. Nano Lett., 6, 65 (2016). 124. R. Ciriminna, N. Zhang, M.-Q. Yang, F. Meneguzzo, Y.-J. Xu, and M. Pagliaro, Chem. Commun., 51, 7090 (2015). 125. W. Choi, I. Lahiri, R. Seelaboyina, and Y. S. Kang, Crit. Rev. Solid State Mater. Sci., 35, 52 (2010). 126. G. Supriyanto, N. K. Rukman, A. K. Nisa, M. Jannatin, B. Piere, M. Z. Fahmi, and H. S. Kusuma, Bio Resour., 13, 4832 (2018). 127. Z. Chen, L. Jin, W. Hao, W. Ren, and H.-M. Cheng, Mater. Today Nano, 5, 100027 (2019). 128. A. B. Bourlinos, V. Georgakilas, R. Zboril, T. A. Steriotis, and A. K. Stubos, Small, 5, 1841 (2009). 129. A. T. Najafabadi and E. Gyenge, Carbon, 71, 58 (2014). 130. J. Liu et al., Nano Energy, 2, 377 (2013). 131. K. Chen and D. Xue, J. Colloid Interface Sci., 436, 41 (2014). 132. J. Liu, inGraphene-based Composites for Electrochemical Energy Storage (Springer Singapore, Singapore) p. 39 (2017), http://link.springer.com/10.1007/ 978-981-10-3388-9_2. 133. Y. Gong, Y. Ping, D. Li, C. Luo, X. Ruan, Q. Fu, and C. Pan, Appl. Surf. Sci., 397, 213 (2017). 134. K. Kakaei, Carbon, 51, 195 (2013). 135. A. Mir, D. K. Singh, and A. Shukla, Mater. Chem. Phys., 220, 87 (2018). 136. C.-Y. Su, A.-Y. Lu, Y. Xu, F.-R. Chen, A. N. Khlobystov, and L.-J. Li, ACS Nano, 5, 2332 (2011). 137. J.-W. Lee, M. Kim, W. Na, S. M. Hong, and C. M. Koo, Carbon, 91, 527 (2015). 138. J. M. Munuera, J. I. Paredes, S. Villar-Rodil, M. Ayán-Varela, A. Pagán, S. D. Aznar-Cervantes, J. L. Cenis, A. Martínez-Alonso, and J. M. D. Tascón, Carbon, 94, 729 (2015). 139. R. Singh and C. Charu Tripathi, Mater. Today Proc., 5, 973 (2018). 140. N. Behabtu et al., Nat. Nanotechnol., 5, 406 (2010). 141. W. Zhang, J. Cui, C. Tao, Y. Wu, Z. Li, L. Ma, Y. Wen, and G. Li, Angew. Chem., 121, 5978 (2009). 142. Z.-Y. Juang, C.-Y. Wu, A.-Y. Lu, C.-Y. Su, K.-C. Leou, F.-R. Chen, and C.-H. Tsai, Carbon, 48, 3169 (2010). 143. B. Qin, T. Zhang, H. Chen, and Y. Ma, Carbon, 102, 494 (2016). 144. S. Kim, Y. Song, J. Wright, and M. J. Heller, Carbon, 102, 339 (2016). 145. R. L. Calabro, D.-S. Yang, and D. Y. Kim, J. Colloid Interface Sci., 527, 132 (2018). 146. M. Kim, S. Osone, T. Kim, H. Higashi, and T. Seto, KONA Powder Part. J., 34, 80 (2017). 147. Y. Wu, B. Wang, Y. Ma, Y. Huang, N. Li, F. Zhang, and Y. Chen, Nano Res., 3, 661 (2010). 148. A. F. Betancur, N. Ornelas-Soto, A. M. Garay-Tapia, F. R. Pérez, Á. Salazar, and A. G. García, Mater. Chem. Phys., 218, 51 (2018). 149. K. Parvez, S. Yang, X. Feng, and K. Müllen, Synth. Met., 210, 123 (2015). 150. Y. Hernandez and J. N. Coleman, Nat. Nanotechnol., 3, 563 (2008). 151. M. Yi and Z. Shen, RSC Adv., 6, 72525 (2016). 152. Y. Xu, H. Cao, Y. Xue, B. Li, and W. Cai, Nanomaterials, 8, 942 (2018). 153. P. Yu, S. E. Lowe, G. P. Simon, and Y. L. Zhong, Curr. Opin. Colloid Interface Sci., 20, 329 (2015). 154. A. Öztürk and M. Alanyalıoğlu, Superlattices Microstruct., 95, 56 (2016). 155. J. Liu et al., RSC Adv., 3, 11745 (2013). 156. K. Parvez, R. Li, S. R. Puniredd, Y. Hernandez, F. Hinkel, S. Wang, X. Feng, and K. Müllen, ACS Nano, 7, 3598 (2013). 157. S. Yang, M. R. Lohe, K. Müllen, and X. Feng, Adv. Mater., 28, 6213 (2016). 158. K. M. K Punith, S. Shanthini, and C. Srivastava, RSC Adv., 5, 53865 (2015). 159. A. Mir and A. Shukla, Appl. Surf. Sci., 443, 157 (2018). 160. H. Gürsu, M. Gençten, and Y. Şahin, Electrochim. Acta, 243, 239 (2017). 161. R. I. Jibrael and M. K. A. Mohammed, Opt.—Int. J. Light Electron Opt., 127, 6384 (2016). 162. K. Parvez, Z.-S. Wu, R. Li, X. Liu, R. Graf, X. Feng, and K. Müllen, J. Am. Chem. Soc., 136, 6083 (2014). 163. A. J. Cooper, N. R. Wilson, I. A. Kinloch, and R. A. W. Dryfe, Carbon, 66, 340 (2014). 164. W. Clower, N. Groden, and C. G. Wilson, Nano-Struct. Nano-Objects, 12, 77 (2017). 165. K. Muthoosamy and S. Manickam, Ultrason. Sonochem., 39, 478 (2017). 166. H. Asgar, K. M. Deen, U. Riaz, Z. U. Rahman, U. H. Shah, and W. Haider, Mater. Chem. Phys., 206, 7 (2018). 167. Y. Z. N. Htwe, W. S. Chow, Y. Suda, A. A. Thant, and M. Mariatti, Appl. Surf. Sci., 469, 951 (2019). 168. D. Van Thanh, P. P. Oanh, D. T. Huong, and P. H. Le, Ultrason. Sonochem., 34, 978 (2017). 169. R. Bakhshandeh and A. Shafiekhani, Mater. Chem. Phys., 212, 95 (2018). 170. A. B. López-Oyama, M. A. Domínguez-Crespo, A. M. Torres-Huerta, E. Onofre- Bustamante, R. Gámez-Corrales, N. Cayetano-Castro, and A. C. Ferrel-Álvarez, Data Brief, 21, 598 (2018). 171. H. Yang, H. Li, J. Zhai, L. Sun, and H. Yu, Ind. Eng. Chem. Res., 53, 17878 (2014). 172. S. Barcikowski, F. Devesa, and K. Moldenhauer, J. Nanoparticle Res.,, 11, 1883 (2009). 173. S. Barcikowski and G. Compagnini, Phys. Chem. Chem. Phys., 15, 3022 (2013). 174. M. DellʼAglio, R. Gaudiuso, O. De Pascale, and A. De Giacomo, Appl. Surf. Sci., 348, 4 (2015). 175. E. Cappelli, S. Orlando, M. Servidori, and C. Scilletta, Appl. Surf. Sci., 254, 1273 (2007). 176. F. Kazemizadeh and R. Malekfar, Phys. B Condens. Matter, 530, 236 (2018). 177. A. T. T. Koh, Y. M. Foong, and D. H. C. Chua, Diam. Relat. Mater., 25, 98 (2012). 178. G. K. Hemani, W. G. Vandenberghe, B. Brennan, Y. J. Chabal, A. V. Walker, R. M. Wallace, M. Quevedo-Lopez, and M. V. Fischetti, Appl. Phys. Lett., 103, 134102 (2013). 179. H. Abbasi, G. Rauter, R. Guzman, P. C. Cattin, and A. Zam, J. Biomed. Opt., 23, 071206 (2018). 180. E. M. Pechlivani, D. Papas, E. Mekeridis, A. Laskarakis, G. Nomikos, and S. Logothetidis, Mater. Today Proc., 4, 5074 (2017). 181. A. De Bonis, M. Curcio, A. Santagata, J. V. Rau, A. Galasso, and R. Teghil, Appl. Surf. Sci., 336, 67 (2015). 182. X. Li et al., Science, 324, 1312 (2009). 183. M. P. Lavin-Lopez, J. L. Valverde, S. Ordoñez-Lozoya, A. Paton-Carrero, and A. Romero, Mater. Chem. Phys., 222, 173 (2019). 184. W. Liu, H. Li, C. Xu, Y. Khatami, and K. Banerjee, Carbon, 49, 4122 (2011). 185. R. Papon, C. Pierlot, S. Sharma, S. M. Shinde, G. Kalita, and M. Tanemura, Phys. Status Solidi b, 254, 1600629 (2017). 186. H. Liu and Y. Liu, Phys. Sci. Rev., 2, 1 (2017), https://degruyter.com/view/ journals/psr/2/4/article-20160107.xml. 187. K. S. Subrahmanyam, L. S. Panchakarla, A. Govindaraj, and C. N. R. Rao, J. Phys. Chem. C, 113, 4257 (2009). 188. S. Kim, Y. Song, T. Takahashi, T. Oh, and M. J. Heller, Small, 11, 5041 (2015). 189. X. Wu, Y. Liu, H. Yang, and Z. Shi, RSC Advances, 6, 93119 (2016). ECS Journal of Solid State Science and Technology, 2020 9 093013PDF Image | Progress in Graphene Synthesis
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