최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Journal of sensor science and technology = 센서학회지, v.21 no.6, 2012년, pp.425 - 428
김강산 (울산대학교 전기공학부) , 정귀상 (울산대학교 전기공학부)
This paper presents the fabrication and characterization of graphene based hydrogen sensors. Graphene was synthesized by annealing process of Ni/3C-SiC thin films. Graphene was transferred onto oxidized Si substrates for fabrication of chemiresistive type hydrogen sensors. Au electrode on the graphe...
N. Tasaltin, S. Ozturk, N. Kihnc, and Z. Z. Ozturk, "Temperature dependence of a nano porous Pd film hydrogen sensor based on an AAO template on Si" Appl. Phys. A, Vol. 97, pp. 745-750, 2009.
C. Lu and Z. Chen, "High-temperature resistive hydrogen sensor based on thin nanoporous rutile $TiO_2$ film on anodix aluminum oxide", Sens. Actuators B, Vol. 140, pp. 109-115, 2009.
T. Waitz, T. Wagner, T. Sauerwald, C. D. Kohl, and M. Tiemann, "Ordered mesoporous $In_2O_3$ : Synthesis by structure replication and application as a methane gas sensor", Adv. Func. Mat., Vol. 19, pp. 653-661. 2009.
B. H. Chu, C. F. Lo, J. Nicolosi, C. Y. Chang, V. Chen, W. Strupinski, S. J. Pearton, and F. Ren, "Hydrogen detection using platinum coated graphene grown on SiC", Sens. Actuators B, Vol. 157, pp. 500-503, 2011.
M. G. Chung, D. H. Kim, D. K. Seo, T. Kim, H. U. Im, H. M. Lee, J. B. Yoo, S. H. Honh, T. J. Kang, Fig. 5. Resistance and time measurement of sensors with hydrogen and Y. H. Kim, "Flexible hydrogen sensors using graphene with palladium nanoparticle decoration", Sens. Actuators B, Vol. 169, pp. 387-392, 2012.
F. A. Lewis, The palladium-hydrogen system, London: Academic, 1967.
M. Khanuja, S. Kala, B. R. Mehta, and F. E. Kruis, "Concentration-specific hydrogen sensing behavior in monosized Pd nanoparticle layers", Nano Tech., Vol. 20, pp. 015502(1)-015502(7), 2009.
J. L. Johnson, A. Behnam, S. J. Pearton, and A. Ural, "Hydrogen sensing using Pd-functionalized multilayer graphene nanoribbon networks", Adv. Mater., Vol. 22, pp. 4877-4880, 2010.
K. S. Kim and G. S. Chung, "Characterization of porous cubic silicon carbide deposited with Pd and Pt nanoparticles as a hydrogen sensor", Sens. Actuators B, Vol. 157, pp. 482-487, 2011.
C. K. Kim, J. H. Lee, S. M. Choi, I. H. Noh, H. R. Kim, N. I. Cho, C. Hong, and G. E. Jang, "Pd- and Pt-SiC Schottky diodes for detection of $H_2$ and Ch4 at high temperature", Sens. Actuators B, Vol. 77, pp. 455-462, 2001.
J. Berashevich and T. Chakraborty, "Tunable band gap and magnetic ordering by adsorption of molecules on graphene", Phys. Rev. B, Vol. 80, pp. 033404(1)-033404(4), 2009.
F. Yavari, C. Krizinger, C. Gaire, L. Song, H. Gullapalli, T. Borca-Tasiuc, P. M. Ajayan, and N. Koratkar, "Tunable bandgap in graphene by the controlled adsorption of water molecules", Small, Vol. 6 pp. 2535-2538, 2010.
B. H. Chu, C. F. Lo, J. Nicolosi, C. Y. Chang, V. Chen, W. Strupinski, S. J. Pearton, and F. Ren, "Hydrogen detection using platinum coated graphene grown on SiC", Sens. Actuators B, Vol. 157 pp. 500-503, 2011.
G. S. Chung and J. H. Ahn, "Fabrication of Pd/poly 3C-SiC Schottky diode hydrogen sensor and its characteristics", J. Sensor Sci. & Tech., Vol. 18, No. 4, pp. 223-225, 2009.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.