Browse > Article
http://dx.doi.org/10.9713/kcer.2018.56.5.738

Thermal Oxidative Purification of Detonation Nanodiamond in a Gas-Solid Fluidized Bed Reactor  

Lee, Jae Hoon (Department of Chemical Engineering, Sungkyunkwan University)
Youn, Yong Suk (NanoResource Co., Ltd)
Lee, Dong Hyun (Department of Chemical Engineering, Sungkyunkwan University)
Publication Information
Korean Chemical Engineering Research / v.56, no.5, 2018 , pp. 738-751 More about this Journal
Abstract
The effect of the reaction temperature and reaction time on the thermal oxidative purification quality of detonation nanodiamond (NDsoot) was investigated in a gas-solid fluidized bed reactor of a $0.10m-ID{\times}1.0m$-high stainless steel column with zirconia beads ($d_{SV}=99.2{\mu}m$). The carbon conversion increased with increasing the reaction temperature; however, when the reaction temperature was greater than 773 K, the carbon conversion did not increase. The content of $sp^3$-hybridized carbon at the reaction temperature of 703 K barely changed when the reaction time was more than 30 minutes, but at 773 K, the content decreased as preferred. At 703 K, the purification quality increased with the increasing reaction time; however, at 773 K, the purification quality increased up to 30 minutes and then decreased rapidly.
Keywords
Nanodiamond; Purification; Thermal oxidation; Fluidized bed reactor;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Zhang, X. Q., Chen, M., Lam, R., Xu, X. Y., Osawa, E., Ho, D., "Polymer-Functionalized Nanodiamond Platforms as Vehicles for Gene Delivery," ACS Nano, 3, 2609-2616(2009).   DOI
2 Chen, M., Zhang, X. Q., Man, H. B., Lam, R., Chow, E. K., Ho, D. A., "Nanodiamond Vectors Functionalized with Polyethylenimine for siRNA Delivery," J. Physical Chemistry Letters, 1, 3167-3171(2010).   DOI
3 Kotov, N. A., "Inorganic Nanoparticles as Protein Mimics," Science, 330, 188-189(2010).   DOI
4 Perevedentseva, E., Cai, P.J., Chiu, Y.C., Cheng, C.L., "Characterizing Protein Activities on the Lysozyme and Nanodiamond Complex Prepared for Bio Applications," Langmuir, 27, 1085-1091(2011).   DOI
5 Krueger, A., "New Carbon Materials: Biological Applications of Functionalized Nanodiamond Materials," Chemistry-a European J., 14, 1382-1390(2008).   DOI
6 Thalhammer, A., Edgington, R. J., Cingolani, L. A., Schoepfer, R. and Jackman, R. B., "The Use of Nanodiamond Monolayer Coatings to Promote the Formation of Functional Neuronal Networks," Biomaterials, 31, 2097-2104(2010).   DOI
7 Xing, Z., Pedersen, T. O., Wu, X. J., Xue, Y., Sun, Y., Finne-Wistrand, A., Kloss, F. R., Waag, T., Krueger, A., Steinmuller-Nethl, D. and Mustafa, K., "Biological Effects of Functionalizing Copolymer Scaffolds with Nanodiamond Particles," Tissue Engineering Part A, 19, 1783-1791(2013).   DOI
8 Shu, X. Z., Liu, Y. C., Palumbo, F. S., Lu, Y. and Prestwich, G. D., "In situ Crosslinkable Hyaluronan Hydrogels for Tissue Engineering," Biomaterials, 25, 1339-1348(2004).   DOI
9 Huang, H., Pierstorff, E., Osawa, E. and Ho, D., "Active Nano-diamond Hydrogels for Chemotherapeutic Delivery," Nano Letters, 7, 3305-3314(2007).   DOI
10 Yeh, J., Ling, Y. B., Karp, J. M., Gantz, J., Chandawarkar, A., Eng, G., Blumling, J., Langer, R. and Khademhosseini, M. A., "Micromolding of Shape-controlled, Harvestable Cell-laden Hydrogels," Biomaterials, 27, 5391-5398(2006).   DOI
11 Shenderova, O. A., Zhirnov, V. V. and Brenner, D. W., "Carbon Nanostructures," Crit. Rev. Solid State Mat. Sci., 27, 227-356 (2002).   DOI
12 Pichot, V., Comet, M., Fousson, E., Baras, C., Senger, A., Le Normand, F. and Spitzer, D., "An Efficient Purification Method For Detonation Nanodiamonds," Diamond and Related Materials, 17, 13-22(2008).   DOI
13 Apolonskaya, I. A., Tyurnina, A. V., Kopylov, P. G. and Obraztsov, A. N., "Thermal Oxidation of Detonation Nanodiamond," Moscow University Physics Bulletin, 64, 433-436(2009).   DOI
14 Xu, X. Y. and Yu, Z. M., "Influence of Thermal Oxidation on As-synthesized Detonation Nanodiamond," Particuology, 10, 339-344(2012).   DOI
15 Duffy, E., Mitev, D. P., Thickett, S. C., Townsend, A. T., Paull, B. and Nesterenko, P. N., "Assessing the Extent, Stability, Purity and Properties of Silanised Detonation Nanodiamond," Applied Surface Science, 357, 397-406(2015).   DOI
16 Petrov, I., Shenderova, O., Grishko, V., Grichko, V., Tyler, T., Cunningham, G. and McGuire, G., "Detonation Nanodiamonds Simultaneously Purified and Modified by Gas Treatment," Diamond and Related Materials, 16, 2098-2103(2007).   DOI
17 Osswald, S., Yushin, G., Mochalin, V., Kucheyev, S. O. and Gogotsi, Y., "Control of sp (2)/sp (3) Carbon Ratio and Surface Chemistry of Nanodiamond Powders by Selective Oxidation in air," J. American Chemical Society, 128, 11635-11642(2006).   DOI
18 Shenderova, O., Koscheev, A., Zaripov, N., Petrov, I., Skryabin, Y., Detkov, P., Turner, S. and Van Tendeloo, G., "Surface Chemistry and Properties of Ozone-Purified Detonation Nanodiamonds," J. Phys. Chem. C, 115, 9827-9837(2011).   DOI
19 Petit, T., Arnault, J. C., Girard, H. A., Sennour, M., Bergonzo, P., "Early Stages of Surface Graphitization on Nanodiamond Probed by x-ray Photoelectron Spectroscopy," Physical Review B, 84, 5(2011).
20 Xie, F. Y., Xie, W. G., Gong, L., Zhang, W. H., Chen, S. H., Zhang, Q. Z. and Chen, J., "Surface Characterization on Graphitization of Nanodiamond Powder Annealed in Nitrogen Ambient," Surface and Interface Analysis, 42, 1514-1518(2010).   DOI
21 Cunningham, G., Panich, A. M., Shames, A. I., Petrov, I. and Shenderova, O., "Ozone-modified Detonation Nanodiamonds," Diamond and Related Materials, 17, 650-654(2008).   DOI
22 Chou, C. C. and Lee, S. H., "Tribological Behavior of Nanodiamond-dispersed Lubricants on Carbon Steels and Aluminum Alloy," Wear, 269, 757-762(2010).   DOI
23 Liu, Y. Y. and Kim, D. Y., "Enhancement of Capacitance by Electro- chemical Oxidation of Nanodiamond Derived Carbon Nano-Onions," Electrochimica Acta, 139, 82-87(2014).   DOI
24 Zou, Q., Wang, M. Z. and Li, Y. G., "Analysis of the Nanodia- mond Particle Fabricated by Detonation," J. Experimental Nano-science, 5, 319-328(2010).   DOI
25 Pu, J. C., Wang, S. F. and Sung, J. C., "High-temperature Oxidation Behavior of Nanocrystalline Diamond Films," J. Alloy. Compd., 489, 638-644(2010).   DOI
26 Faklaris, O., Joshi, V., Irinopoulou, T., Tauc, P., Sennour, M., Girard, H., Gesset, C., Arnault, J. C., Thorel, A., Boudou, J. P., Curmi, P. A. and Treussart, F., "Photoluminescent Diamond Nanoparticles for Cell Labeling: Study of the Uptake Mechanism in Mam-malian Cells," ACS Nano, 3, 3955-3962(2009).   DOI
27 McGuinness, L. P., Yan, Y., Stacey, A., Simpson, D. A., Hall, L. T., Maclaurin, D., Prawer, S., Mulvaney, P., Wrachtrup, J., Caruso, F., Scholten, R. E. and Hollenberg, L. C. L., "Quantum Measurement and Orientation Tracking of Fluorescent Nanodiamonds Inside Living Cells," Nat. Nanotechnol., 6, 358-363(2011).   DOI
28 Dolmatov, V. Y., "Detonation Synthesis Ultradispersed Diamonds: Properties and Applications," Uspekhi Khimii, 70, 687-708(2001).
29 Chang, Y. R., Lee, H. Y., Chen, K., Chang, C. C., Tsai, D. S., Fu, C. C., Lim, T. S., Tzeng, Y. K., Fang, C. Y., Han, C. C., Chang, H. C. and Fann, W., "Mass Production and Dynamic Imaging of Fluorescent Nanodiamonds," Nat. Nanotechnol., 3, 284-288 (2008).   DOI
30 Mochalin, V. N., Shenderova, O., Ho, D. and Gogotsi, Y., "The Properties and Applications of Nanodiamonds," Nat. Nanotechnol., 7 11-23(2012).   DOI
31 Alhaddad, A., Adam, M. P., Botsoa, J., Dantelle, G., Perruchas, S., Gacoin, T., Mansuy, C., Lavielle, S., Malvy, C., Treussart, F. and Bertrand, J. R., "Nanodiamond as a Vector for siRNA Delivery to Ewing Sarcoma Cells," Small, 7, 3087-3095(2011).   DOI
32 Ivanov, M. G., Pavlyshko, S. V., Ivanov, D. M., Petrov, I. and Shenderova, O., "Synergistic Compositions of Colloidal Nano-diamond as Lubricant-additive," J. Vacuum Science & Technology B, 28, 869-877(2010).   DOI
33 Kato, T., Lin, W. M. and Osawa, E., "Lubrication Property of Single-Digit-Nanodiamond in an Aqueous Colloid," J. Japanese Society Tribologists, 54, 122-129(2009).
34 Shimkunas, R. A., Robinson, E., Lam, R., Lu, S., Xu, X. Y., Zhang, X. Q., Huang, H. J., Osawa, E. and Ho, D., "Nanodiamond-insulin Complexes as pH-dependent Protein Delivery Vehicles," Biomaterials, 30, 5720-5728(2009).   DOI