BCN二维材料用于气体传感器的机理研究任务书
2020-04-30 16:11:34
1. 毕业设计(论文)的内容和要求
BCN#20108;#32500;#26448;#26009;#22240;#22823;#30340;#27604;#34920;#38754;#31215;#12289;#20248;#24322;#30340;#21322;#23548;#20307;#24615;#33021;#21644;#36739;#39640;#30340;#34920;#38754;#27963;#24615;#65292;#22312;#27668;#20307;#20256;#24863;#24212;#29992;#20013;#26377;#30528;#26174;#33879;#30340;#20248;#21183;#12290;#36817;#24180;#26469;#65292;#22312;BCN#20108;#32500;#26448;#26009;#30740;#31350;#26041;#38754;#21462;#24471;#30340;#31361;#20986;#36827;#23637;#20351;#39640;#24615;#33021;#27668;#20307;#20256;#24863;#22120;#30340;#23454;#29616;#25104;#20026;#21487;#33021;#12290;BCN#20108;#32500;#26448;#26009;#30340;#34920;#38754;#23481;#26131;#21560;#38468;#22806;#30028;#20998;#23376;#65292;#32780;#19981;#21516;#30340;#21560;#38468;#20998;#23376;#19982;BCN#20108;#32500;#26448;#26009;#38388;#30340;#30005;#33655;#36716;#31227;#20250;#24433;#21709;BCN#20108;#32500;#26448;#26009;#30340;#30005;#23398;#24615;#33021;#65292;#20174;#32780;#21487;#20197;#29992;#26469;#26816;#27979;#19981;#21516;#30340;#27668;#20307;#65292;#22522;#20110;BCN#20108;#32500;#26448;#26009;#20256;#24863;#22120;#30340;#30740;#21046;#23545;#20110;#29615;#22659;#27745;#26579;#30340;#30417;#27979;#20855;#26377;#37325;#35201;#30340;#24847;#20041;#12290; #35770;#25991;#35201;#27714;#65306; 1) #26597;#38405;#22269;#20869;#22806;#30456;#20851;#25991;#29486;#65292;#32763;#35793;3000-5000#23383;#24038;#21491;#30340;#33521;#25991;#35770;#25991;1#31687;#65307; 2) #26681;#25454;#25991;#29486;#35843;#30740;#65292;#25776;#20889;#24320;#39064;#25253;#21578;#65307; 3) #23436;#25104;BCN#20108;#32500;#26448;#26009;#30340;#27668;#20307;#21560;#38468;#27169;#22411;#32467;#26500;#30340;#20960;#20309;#20248;#21270;#12289;#33021;#24102;#32467;#26500;#21644;#24577;#23494;#24230;#30340;#35745;#31639;#65292;#25972;#29702;#12289;#20998;#26512;#35745;#31639;#25968;#25454;#65292;#25776;#20889;#35770;#25991;#12290;
2. 参考文献
[1] Wang, Y. S.; Yuan, P. F.; Li, M.; Jiang, W. F.; Sun, Q.; Jia, Y. Metal decorated monolayer BC2N for hydrogen storage. Comp. Mater. Sci. 2012, 60, 181-185. [2] Sun, J.; Zhang, X. F.; Qian, G. R. Chalcopyrite polymorph for superhard BC2N. Appl. Phys. Lett. 2006, 89, 15-19. [3] Gu, X. J.; Liu, Z. Y.; Li, X. G. Theoretical hardness of the cubic BC2N. Diam. Relat. Mater. 2007, 16, 526-530. [4] Tateyama, Y.; Ogitsu, T.; Kusakabe, K. Proposed synthesis path for heterodiamond BC2N. Phys. Rev. B. 1997, 55, 10161- 10164. [5] Yu, J.; Qiu, T.; Yang, C. Y. New BCN fibres for strong ultraviolet and visible light luminescence. Chin. Phys. Lett. 2006, 23, 2573-2575. [6] Bao, S. Z.; Yu, B.; Xu, G. Z. Synthesis conductivity and high-pressure phase transition of amorphous boron carbon nitride. Phys. B: Condens. Matter. 2007, 396, 214-219. [7] Kaloni, P.; Joshi, R.; Adhikari, N.; Schwingenschl鰃l, U. Band gap tunning in BN-doped graphene systems with high carrier mobility. Appl. Phys. Lett. 2014, 104, 7-12. [8] Bernardi, M.; Palummo, M.; Grossman, J. Optoelectronic properties in monolayers of hybridized graphene and hexagonal boron nitride. Phys. Rev. Lett. 2012, 108, 226805. [9] Cai, L. J.; Su, L.; Jariwala, D.; Wang, D. X.; Liu, Y. J.; Srivastava, A.; Wu, Z. F.; Storr, K.; Balicas, L.; Li, F.; Ajayan, P. Atomic layers of hybridized boron nitride and graphene domains. Nat. Mater. 2010, 10, 430-435. [10] Hu, X. H.; Torbjo#776;rn, B.; Harri, L.; Sun, L. T.; Arkady, V. Solubility of boron, carbon and nitrogen in transition metals: Getting insight into trends from first-principles calculations. J. Phys. Chem. Lett. 2015, 6, 3263#8722;3268. [11] Dinescu, M.; Perrone, A.; Caricato, A. Boron carbon nitride films deposited by sequential pulses laser deposition. Appl. Surf. Sci. 1998, 128, 692-696. [12] Gokoglu, G.; Akturk, E. Oxygen adsorption on honeycomb BC2N monolayers. Mater. Lett. 2013, 106, 168-170. [13] Lin, W. H.; Hamzah, A.; Ahmadi, M. T.; Ismail, R. Band gap engineering of BC2N for nanoelectronic applications. Superlattice. Microst. 2017, 112, 328-338. [14] Esrafili, M. BN CO-doped graphene monolayers as promising metal-free catalysts for N2O reduction: A DFT study. Chem. Phys. Lett. 2018, 705, 44-49. [15] Nematollahi, P.; Neyts, E. A comparative DFT study on CO oxidation reaction over Si-doped BC2N nanosheet and nanotube. Appl. Surf. Sci. 2018, 439, 934-945.
3. 毕业设计(论文)进程安排
2018.12.11-2018.12.22#65306;#30830;#23450;#27605;#19994;#35770;#25991;#39064;#30446;#65292;#23398;#29983;#36873;#39064;#65292;#25351;#23548;#23398;#29983;#26597;#38405;#25991;#29486;#65307; 2018.12.23-2019.1.12#65306;#23436;#25104;#25991;#29486;#32508;#36848;#12289;#22806;#25991;#32763;#35793;#21644;#24320;#39064;#25253;#21578;#31561;#24037;#20316;#65307;#23436;#25104;#26412;#24449;BCN#20108;#32500;#26448;#26009;#30340;#33021;#24102;#32467;#26500;#21644;#24577;#23494;#24230;#30340;#35745;#31639;#65307; 2019.2.26-2019.4.30#65306;#23545;BCN#20108;#32500;#26448;#26009;#30340;#27668;#20307;#21560;#38468;#27169;#22411;#32467;#26500;#36827;#34892;#20960;#20309;#20248;#21270;#12289;#33021;#24102;#32467;#26500;#21644;#24577;#23494;#24230;#30340;#35745;#31639;#65292;#23436;#25104;#35745;#31639;#25968;#25454;#30340;#20998;#26512;#21450;#25972;#29702;#24037;#20316;#65307; 2019.5.1-2019.5.31#65306;#23436;#25104;#27605;#19994;#35770;#25991;#30340;#25776;#20889;#21450;#20462;#25913;#12290; 2019.6.1-2019.6.15#65306;#36827;#19968;#27493;#20462;#25913;#27605;#19994;#35770;#25991;#24182;#23436;#25104;#27605;#19994;#35770;#25991;#30340;#31572;#36777;#12290;