Citation:
CHENG Ying-Wu, YANG Zhi, WEI Hao, WANG Yan-Yan, WEI Liang-Ming, ZHANG Ya-Fei. Progress in Carbon Nanotube Gas Sensor Research[J]. Acta Physico-Chimica Sinica,
;2010, 26(12): 3127-3142.
doi:
10.3866/PKU.WHXB20101138
-
Carbon nanotubes have become ideal candidates for fabricating nanosized gas sensors because of their excellent mechanical, electrical, physical, and chemical properties, one?dimensional nanostructure, high surface adsorption capability, superior conductive performance, and electronic ballistic transport characteristics. Recently, a great deal of effort has been devoted to the development of carbon nanotube?based gas sensors and rapid progress has been made. The results show that carbon nanotube gas sensors possess unique properties such as high sensitivity, fast response, small size, low energy consumption, and low operating temperature. In this review, we combine the great deal of work carried out by our group and try to summarize research progress in carbon nanotube-based gas sensors for environmental monitoring, medical diagnosis, and military and defense applications. The working mechanisms and manufacturing processes of these sensors are also presented and analyzed. Despite facing enormous challenges, owing to their excellent performance, sensors based on carbon nanotubes will be substitutes for commercially traditional gas sensors.
-
-
-
[1]
1. Fergus, J.W. Sens. Actuators B, 2007, 122: 683
-
[2]
2. Ramamoorthy, R.; Dutta, P. K.; Akbar, S. A. J. Mater. Sci., 2003,38: 4271
-
[3]
3. Lee, D. D. IEEE Sens. J., 2001, 1: 214
-
[4]
4. Azad, A. M.; Akbar, S. A.; Mhaisalkar, S. G.; Birkefeld, L. D.; to, K. S. J. Electrochem. Soc., 1992, 139: 3690
-
[5]
5. Janata, J.; Josowicz, M.; Vanysek, P.; DeVaney, D. M. Anal.Chem., 1998, 70: 179
-
[6]
6. Knake, R.; Jacquinot, P.; Hodgson, A.W. E.; Hauser, P. C. Anal.Chim. Acta, 2005, 549: 1
-
[7]
7. Wang, J. Electroanalysis, 2005, 17: 7
-
[8]
8. Valcárcel, M.; Cárdenas, S.; Simonet, B. M. Anal. Chem.,2007,79: 4788
-
[9]
9. Gruner, G. Anal. Bioanal. Chem., 2006, 384: 322
-
[10]
10. Iijima, S. Nature, 1991, 354: 56
-
[11]
11. Coleman, J. N.; Khan, U.; Blau,W. J.; Gunko, Y. K. Carbon,2006, 44: 1624
-
[12]
12. Chen, C. X.; Hou, Z. Y.; Liu, X.; Kong, E. S.; Miao, J. P.; Zhang,Y. F. Phys. Lett. A, 2007, 366: 474
-
[13]
13. Zhang, Q. F.; Yu, J.; Song, J. H.; Zhang, G. M.; Zhang, Z. X.;Xue, Z. Q.;Wu, J. L. Acta Phys. -Chim. Sin., 2004, 20: 409[张琦峰, 于洁, 宋教花, 张耿民, 张兆祥, 薛增泉, 吴锦雷. 物理化学学报, 2004, 20: 409]
-
[14]
14. Tang, Y. H.; Li, X. C.; Li, J. L.; Lin, L.W.; Xu, H. F.; Huang, B. Y. Nano?Micro Lett., 2010, 2: 18
-
[15]
15. Bahr, J. L.; Tour, J. M. J. Mater. Chem., 2002, 12: 1952
-
[16]
16. Zhao, B.;Wang, J.; Chen, D.; Zhang, Y. F. Mater. Sci. Technol.,2009, 25: 587
-
[17]
17. Tasis, D.; Tagmatarchis, N.; Bianco, A.; Prato, M. Chem. Rev.,2006, 106: 1105
-
[18]
18. Aussawasathien, D.; He, P.; Dai, L. ACS Symp. Ser., 2006, 918:246
-
[19]
19. Chen, C. X.; Zhang, Y. F. The Open Nanoscience Journal, 2007,1: 13
-
[20]
20. Zhao, B.; Yadian, B.; Chen, D.; Xu, D.; Zhang, Y. F. Appl. Surf.Sci., 2008, 255: 2087
-
[21]
21. Chen, C. X.; Lu, Y.; Kong, E. S.; Zhang, Y. F.; Lee, S. T. Small,2008, 4: 1313
-
[22]
22. Li, Z. H.; Jiang, Y.; Zhao, P.; Shang, X. F.; Yang, H.;Wang, M.Acta Phys. ?Chim. Sin., 2009, 25: 2395. [李振华, 姜源,赵沛, 尚学府, 杨辉, 王淼. 物理化学学报, 2009, 25: 2395]
-
[23]
23. Li, Z. J.;Wang, L.; Su, Y. J.; Liu, P.; Zhang, Y. F. Nano?Micro Lett., 2009, 1: 9
-
[24]
24. Qin, L. C.; Iijima, S. Chem. Phys. Lett., 1997, 269: 65
-
[25]
25. Zou, H. L.; Yang, Y. L.;Wu, B.; Qing, Q.; Li, Q.W.; Zhang, J.;Liu, Z. F. Acta Phys. ?Chim. Sin., 2002, 18: 409. [邹红玲,杨延莲, 武斌, 卿泉, 李清文, 张锦, 刘忠范. 物理化学学报, 2002, 18: 409]
-
[26]
26. Allen, B. L.; Kichambare, P. D.; Star, A. Adv. Mater., 2007, 19:1439
-
[27]
27. Zhang, T.; Mubeen, S.; Myung, N.; Deshusses, M.Nanotechnology, 2008, 19: 332001
-
[28]
28. Tans, S. J.; Verschueren, A. R. M.; Dekker, C. Nature, 1998, 393:49
-
[29]
29. Martel, R.; Schmidt, T.; Shea, H. R.; Hertel, T.; Avouris, P. Appl.Phys. Lett., 1998, 73: 2447
-
[30]
30. Kong, J.; Franklin, N. R.; Zhou, C.; Chapline, M. G.; Peng, S.;Cho, K.; Dai, H. Science, 2000, 287: 622
-
[31]
31. Koh, J.; Kim, B.; Hong, S.; Lim, H.; Choi, H. C. J. Mater. Sci.Technol., 2008, 24: 578
-
[32]
32. Chattopadhyay, S.; Ganguly, A.; Chen, K. H.; Chen, L. C. Crit.Rev. Solid State Mater. Sci., 2009, 34: 224
-
[33]
33. Qureshi, A.; Kang,W. P.; Davidson, J. L.; Gurbuz, Y. Diam.Relat. Mater., 2009, 18: 1401
-
[34]
34. Pearton, S. J.; Ren, F.;Wang, Y. L.; Chu, B. H.; Chen, K. H.;Chang, C. Y.; Lim,W.; Lin, J. S.; Norton, D. P. Prog. Mater. Sci.,2010, 55: 1
-
[35]
35. Zhang, Y.; Liu, J. H.; Zhu, C. C.Sens. Lett., 2010, 8: 219
-
[36]
36. Zhang, Y.; Cheng, X. L. Information Technology, 2010, 7: 41[张衍, 程秀兰. 信息技术, 2010, 7: 41]
-
[37]
37. Wen, X. Y. Progress in Chemistry, 2008, 20: 260. [文晓艳. 化学进展, 2008, 20: 260]
-
[38]
38. Wang, R. H.; Niu,W. T.; Yang, H.; Pan, M. Science & Technology Review, 2009, 27: 107. [王仁慧, 牛婉婷, 杨昊, 潘敏. 科技导报, 2009, 27: 107]
-
[39]
39. Zhang, R. Y.; He, P. G.; Fang, Y. Z. Chemical Sensors, 2009, 29:7. [章仁毅, 何品刚, 方禹之. 化学传感器,2009, 29: 7]
-
[40]
40. Van Der Eerden, L. J. M.; De Visser, P. H. B.; Van Dijk, C. J. Environmental Pollution, 1998, 102: 49
-
[41]
41. Okano, K.; Totsuka, T. New Phytol., 1986, 102: 551
-
[42]
42. Schwank, J.W.; DiBattista, M. Mrs. Bull., 1999, 24: 44
-
[43]
43. Korotcenkov, G. Mater. Sci. Eng. B, 2007, 139: 1
-
[44]
44. Bekyarova, E.; Davis, M.; Burch, T.; Itkis, M. E.; Zhao, B.;Sunshine, S.; Haddon, R. C. J. Phys. Chem. B, 2004, 108: 19717
-
[45]
45. Cho,W. S.; Moon, S. I.; Lee, Y. D.; Lee, Y. H.; Park, J. H.; Ju, B. K. IEEE. Electr. Device. L, 2005, 26: 498
-
[46]
46. McGrath, M.; Pham, A. V. H. Sens. Lett., 2008, 6: 719
-
[47]
47. Chen, Y.; Meng, F. L.; Li, M. Q.; Liu, J. H. Sens. Actuators B,2009, 140: 396
-
[48]
48. Suehiro, J.; Ikeda, N.; Ohtsubo, A.; Imasaka, K. IET Nanobiotechnol., 2009, 3: 15
-
[49]
49. Leghrib, R.; Pavelko, R.; Felten, A.; Vasiliev, A.; Cane, C.;Gracia, I.; Pireaux, J. J.; Llobet, E. Sens. Actuators B, 2010, 145:411
-
[50]
50. Li, J.; Lu, Y.; Ye, Q.; Cinke, M.; Han, J.; Meyyappan, M. Nano Lett., 2003, 3: 929
-
[51]
51. Santucci, S.; Picozzi, S.; Di Gre rio, F.; Lozzi, L.; Cantalini, C.; Valentini, L.; Kenny, J. M.; Delley, B. J. Chem. Phys., 2003, 119:10904
-
[52]
52. Valentini, L.; Cantalini, C.; Lozzi, L.; Picozzi, S.; Armentano, I.;Kenny, J. M.; Santucci, S. Sens. Actuators B, 2004, 100: 33
-
[53]
53. Penza, M.; Cassano, G.; Rossi, R.; Rizzo, A.; Signore, M. A.;Alvisi, M.; Lisi, N.; Serra, E.; Giorgi, R. Appl. Phys. Lett., 2007,90: 103101
-
[54]
54. Wongwiriyapan,W.; Honda, S.; Konishi, H.; Mizuta, T.; Ohmori,T.; Kishimoto, Y.; Ito, T.; Maekawa, T.; Suzuki, K.; Ishikawa, H.; Murakami, T.; Kisoda, K.; Harima, H.; Oura, K.; Katayama, M. Nanotechnology, 2006, 17: 4424
-
[55]
55. Valentini, L.; Cantalini, C.; Amentano, I.; Kenny, J. M.; Lozzi, L.;Santucci, S. J. Vac. Sci. Technol. B,2003, 21: 1071
-
[56]
56. Wongwiriyapan,W.; Honda, S.; Konishi, H.; Mizuta, T.; Ohmori, T.; Ito, T.; Maekawa, T.; Suzuki, K.; Ishikawa, H.; Murakami, T.;Kisoda, K.; Harima, H.; Oura, K.; Katayama, M. Jpn. J. Appl. Phys.,2005, 44: 8227
-
[57]
57. Rajaputra, S.; Mangu, R.; Ma, N.; Clore, P.; Qian, D. L.;Andrews, R.; Phok, S.; Lumpp, J.; Singh, V. Mater. Res. Soc.Symp. Proc., 2008, 1057: II20-08
-
[58]
58. Woo, C. S.; Lim, C. H.; Cho, C.W.; Park, B.; Ju, H.; Min, D. H.;Lee, C. J.; Lee, S. B. Microelectron. Eng., 2007, 84: 1610
-
[59]
59. Penza, M.; Cassano, G.; Rossi, R.; Alvisi, M.; Rizzo, A.; Signore,M. A.; Dikonimos, T.; Serra, E.; Giorgi, R. Appl. Phys. Lett.,2007, 90: 173123
-
[60]
60. Star, A.; Joshi, V.; Skarupo, S.; Thomas, D.; Gabriel, J. C. P.J. Phys. Chem. B, 2006, 110: 21014
-
[61]
61. Liang, Y. X.; Chen, Y. J.;Wang, J. H. Appl. Phys. Lett., 2004, 85:666
-
[62]
62. Bittencourt, C.; Felten, A.; Espinosa, E. H.; Ionescu, R.; Llobet,E.; Correig, X.; Pireaux, J.J. Sens. Actuators B,2006, 115: 33
-
[63]
63. Karthigeyan, A.; Minami, N.; Iakoubovskii, K. Jpn. J. Appl.Phys., 2008, 47: 7440
-
[64]
64. Zhang, T.; Mubeen, S.; Bekyarova, E.; Yoo, B. Y.; Haddon, R. C.;Myung, N. V.; Deshusses, M. A. Nanotechnology, 2007, 18:165504
-
[65]
65. Qi, P.; Vermesh, O.; Grecu, M.; Javey, A.;Wang, Q.; Dai, H.;Peng, S.; Cho, K. J. Nano Lett.,2003, 3: 347
-
[66]
66. Shimizu, Y.; Egashira, M. Mrs. Bull., 1999, 24: 18
-
[67]
67. Lundström, K. I.; Shivaraman, M. S.; Svensson, C. M. J. Appl.Phys., 1975, 46: 3876
-
[68]
68. Kong, J.; Chapline, M. G.; Dai, H. Adv. Mater.,2001, 13: 1384
-
[69]
69. Sun, Y.;Wang, H. H. Adv. Mater., 2007, 19: 2818
-
[70]
70. Sun, Y.;Wang, H. H. Appl. Phys. Lett., 2007, 90: 213107
-
[71]
71. Ding, D.; Chen, Z.; Rajaputra, S.; Singh, V. Sens. Actuators B,2007, 124: 12
-
[72]
72. Cusano, A.; Consales, M.; Cutolo, A.; Penza, M.; Aversa, P.;Giordano, M.; Guemes, A. Appl. Phys. Lett., 2006, 89: 201106
-
[73]
73. Sippel?Oakley, J.;Wang, H. T.; Kang, B. S.;Wu, Z.; Ren, F.;Rinzler, A. G.; Pearton, S. J. Nanotechnology, 2005, 16: 2218
-
[74]
74. Abraham, J. K.; Philip, B.;Witchurch, A.; Varadan, V. K.; Reddy,C. C. Smart Mater. Struct.,2004, 13: 1045
-
[75]
75. Endo, M.; Strano, M. S.; Ajayan, P. M. Top. Appl. Phys., 2008,111: 13
-
[76]
76. Peng, S.; Cho, K. Nanotechnology, 2000, 11: 57
-
[77]
77. Matranga, C.; Bockrath, B. J. Phys. Chem. B, 2005, 109: 4853
-
[78]
78. Varghese, O. K.; Kichambre, P. D.; ng, D.; Ong, K. G.; Dickey,E. C.; Grimes, C. A. Sens. Actuators B, 2001, 81: 32
-
[79]
79. Chopra, S.; McGuire, K.; thard, N.; Rao, A. M.; Pham, A.Appl. Phys. Lett., 2003, 83: 2280
-
[80]
80. Picaud, F.; Langlet, R.; Arab, M.; Devel, M.; Girardet, C.;Natarajan, S.; Chopra, S.; Rao, A. M. J. Appl. Phys., 2005, 97:114316
-
[81]
81. Wanna, Y.; Srisukhumbowornchai, N.; Tuantranont, A.;Wisitsoraat, A.; Thavarungkul, N.; Singjai, P. J. Nanosci.Nanotechnol., 2006, 6: 3893
-
[82]
82. Da Silva, L. B.; Fagan, S. B.; Mota, R. Nano Lett., 2004, 4: 65
-
[83]
83. Peng, S.; Cho, K. Nano Lett., 2003, 3: 513
-
[84]
84. Wang, R.; Zhang, D.; Sun,W.; Han, Z.; Liu, C. J. Mol. Struct.,2007, 806: 93
-
[85]
85. Bradley, K.; Jhi, S. H.; Collins, P. G.; Hone, J.; Cohen, M. L.;Louie, S. G.; Zettl, A. Phys. Rev. Lett., 2000, 85: 4361
-
[86]
86. Collins, P. G.; Bradley, K.; Ishigami, M.; Zettl, A. Science,2000,287: 1801
-
[87]
87. Derycke, V.; Martel, R.; Appenzeller, J.; Avouris, P. Appl. Phys.Lett.,2002, 80: 2773
-
[88]
88. ldoni, A.; Larciprete, R.; Petaccia, L.; Lizzit, S. J. Am. Chem.Soc., 2003, 125: 11329
-
[89]
89. Sumanasekera, G. U.; Adu, C. K.W.; Fang, S.; Eklund, P. C.Phys. Rev. Lett., 2000, 85: 1096
-
[90]
90. Kuo, H. F.; Lien, D. H.; Hsu,W. K.; Tai, N. H.; Chang, S. C.J. Mater. Chem., 2007, 17: 3581
-
[91]
91. Valentini, L.; Amentano, I.; Lozzi, L.; Santucci, S.; Kenny, J. M.Mater. Sci. Eng. C, 2004, 24: 527
-
[92]
92. Andzelm, J.; vind, N.; Maiti, A. Chem. Phys. Lett., 2006, 421:58
-
[93]
93. Llobet, E.; Espinosa, E. H.; Sotter, E.; Ionescu, R.; Vilanova, X.;Torres, J.; Felten, A.; Pireaux, J. J.; Ke, X.; Van Tendeloo, G.;Renaux, F.; Paint, Y.; Hecq, M.; Bittencourt, C. Nanotechnology,2008, 19: 375501
-
[94]
94. Ong, K. G.; Zeng, K.; Grimes, C. A. IEEE Sens. J., 2002, 2: 82
-
[95]
95. Deng, M. G.; Zhang, Z. A.; Hu, Y. D.;Wang, B. H.; Yang, B. C.Acta Phys. ?Chim. Sin., 2004, 20: 432. [邓梅根, 张治安, 胡永达, 汪斌华, 杨邦朝. 物理化学学报, 2004, 20: 432]
-
[96]
96. Chopra, S.; Pham, A.; Gaillard, J.; Parker, A.; Rao, A. M. Appl.Phys. Lett., 2002, 80: 4632
-
[97]
97. Jung, H. Y.; Jung, S. M.; Kim, J.; Suh, J. S. Appl. Phys. Lett.,2007, 90: 153114
-
[98]
98. Modi, A.; Koratkar, N.; Lass, E.;Wei, B. Q.; Ajayan, P. M.Nature, 2003, 424: 171
-
[99]
99. Hou, Z. Y.; Cai, B. C.; Xu, D. Appl. Phys. Lett., 2008, 92: 223505
-
[100]
100. Hou, Z. Y.; Xu, D.; Cai, B. C. Appl. Phys. Lett., 2006, 89:213502
-
[101]
101. Pandey, S. K.; Kim, K. H. Sensors, 2007, 7: 1683
-
[102]
102. Anderson, M. R. J. Emerg. Nurs., 2006, 32: 149
-
[103]
103. Zhao, J.; Buldum, A.; Han, J.; Lu, J. P. Nanotechnology, 2002,13: 195
-
[104]
104. Ong, K. G.; Grimes, C. A. Sensors, 2001, 1: 193
-
[105]
105. Zribi, A.; Knobloch, A.; Rao, R. Appl. Phys. Lett., 2005, 86: 1
-
[106]
106. Serban, B.; Kumar, A. K. S.; Costea, S.; Mihaila, M.; Buiu, O.;Brezeanu, M.; Varachiu, N.; Cobianu, C. Rom. J. Inf. Sci.Technol., 2009, 12: 376
-
[107]
107. Star, A.; Han, T. R.; Joshi, V.; Gabriel, J. C. P.; Grüner, G. Adv.Mater., 2004, 16: 2049
-
[108]
108. Hou, Z. Y.;Wu, J. H.; Zhou,W. M.;Wei, X.; Xu, D.; Zhang, Y.F.; Cai, B. C. IEEE Trans. Electr. Devices,, 2007, 54: 1545
-
[109]
109. Hou, Z. Y.; Liu, H.;Wei, X.;Wu, J. H.; Zhou,W. M.; Zhang, Y.F.; Xu, D.; Cai, B. C. Sens. Actuators B, 2007, 127: 637
-
[110]
110. Gill, M.;Walker, S.; Khan, A.; Green, S. M.; Kim, L.; Gray, S.;Krauss, B. Acad. Emerg. Med., 2005, 12: 579
-
[111]
111. Robinson, J. K.; Bollinger, M. J.; Birks, J.W. Anal. Chem., 1999,71: 5131
-
[112]
112. Long, R. Q.; Yang, R. T. Ind. Eng. Chem. Res., 2001, 40: 4288
-
[113]
113. Kauffman, D. R.; Star, A. Nano Lett., 2007, 7: 1863
-
[114]
114. Hoa, N. D.; Quy, N. V.; Kim, D. Sens. Actuators B, 2009, 142:253
-
[115]
115. Kuzmych, O.; Allen, B. L.; Star, A. Nanotechnology, 2007, 18:375502
-
[116]
116. Chen, X. H.;Wang, Y. Y.;Wang, Y. H.; Hou, Z. Y.; Xu, D.;Yang, Z.; Zhang, Y. F. Sens. Actuators A,, 2010, 158: 328
-
[117]
117. Liu, H.; Chen, X. H.; Xu, D.; Hou, Z. Y.; Zhang, Y. F.Microfabricated breath sensor based on carbon nanotubes for respiration monitoring[C]//IEEE Computer Society. 4th IEEEInternational Conference on Nano/Micro Engineered and Molecular Systems, Shenzhen, China, January 05?08, 2009.c2009: 102-105
-
[118]
118. Hou, Z. Y.; Cai, B. C.; Xu, D. Appl. Phys. Lett., 2006, 89: 05315
-
[119]
119. Labianca, D. A. J. Chem. Educ., 1990, 67: 259
-
[120]
120. Brown, T. L.; Gamon, S.; Tester, P.; Martin, R.; Hosking, K.;Bowkett, G. C.; Gerostamoulos, D.; Grayson, M. L. Antimicrob.Agents. Ch., 2007, 51: 1107
-
[121]
121. Yang, C. M.; Kanoh, H.; Kaneko, K.; Yudasaka, M.; Iijima, S.J. Phys. Chem. B, 2002, 106: 8994
-
[122]
122. Someya, T.; Small, J.; Kim, P.; Nuckolls, C.; Yardley, J. T. NanoLett., 2003, 3: 877
-
[123]
123. Van Hieu, N.; Duc, A. P.; Trung, T.; Tuan, M. A.; Duc, C. N.Sens. Actuators B, 2010, 144: 450
-
[124]
124. Cantalini, C.; Valentini, L.; Armentano, I.; Lozzi, L.; Kenny, J.M.; Santucci, S. Sens. Actuators B, 2003, 95: 195
-
[125]
125. Penza, M.; Antolini, F.; Antisari Vittori, M. Sens. Actuators B,2004, 100: 47
-
[126]
126. Penza, M.; Tagliente, M. A.; Aversa, P.; Re, M.; Cassano, G.Nanotechnology, 2007, 18: 185502
-
[127]
127. Smith, P. A.; Lepage, C. J.; Harrer, K. L.; Brochu, P. J. J. Occup.Environ. Hyg., 2007, 4: 729
-
[128]
128. Lee, C. Y.; Balk, S.; Zhang, J.; Masel, R. I.; Strano, M. S.J. Phys. Chem. B, 2006, 110: 11055
-
[129]
129. Diakowski, P. M.; Xiao, Y. Z.; Petryk, M.W. P.; Kraatz, H. B.Anal. Chem., 2010, 82: 3191
-
[130]
130. Bondavalli, P.; Legagneux, P. J. Korean Phys. Soc., 2009, 54:510
-
[131]
131. Wang, Y. Y.; Zhou, Z. H.; Yang, Z.; Chen, X. H.; Xu, D.; Zhang,Y. F. Nanotechnology,2009, 20: 345502
-
[132]
132. Cattanach, K.; Kulkarni, R. D.; Kozlov, M.; Manohar, S. K.Nanotechnology, 2006, 17: 4123
-
[133]
133. Novak, J. P.; Snow, E. S.; Houser, E. J.; Park, D.; Stepnowski, J.L.; McGill, R. A. Appl. Phys. Lett., 2003, 83: 4026
-
[134]
134. Zhang, T.; Mubeen, S.; Yoo, B.; Myung, N. V.; Deshusses, M. A.Nanotechnology, 2009, 20: 255501
-
[135]
135. Staii, C.; Johnson, A. T. C.; Chen, M.; Gelperin, A. Nano Lett.,2005, 5: 1774
-
[136]
136. Johnson, A. T. C.; Staii, C.; Chen, M.; Khamis, S.; Johnson, R.;Klein, M. L.; Gelperin, A. Phys. Status Solid B, 2006, 243: 3252
-
[137]
137. Johnson, A. T. C.; Khamis, S. M.; Preti, G.; Kwak, J.; Gelperin,A. IEEE Sens. J., 2010, 10: 159
-
[138]
138. Snow, E. S.; Perkins, F. K.; Houser, E. J.; Badescu, S. C.;Reinecke, T. L. Science, 2005, 307: 1942
-
[139]
139. Snow, E. S.; Perkins, F. K.; Robinson, J. A. Chem. Soc. Rev.,2006, 35: 790
-
[1]
-
-
-
[1]
Hailang JIA , Hongcheng LI , Pengcheng JI , Yang TENG , Mingyun GUAN . Preparation and performance of N-doped carbon nanotubes composite Co3O4 as oxygen reduction reaction electrocatalysts. Chinese Journal of Inorganic Chemistry, 2024, 40(4): 693-700. doi: 10.11862/CJIC.20230402
-
[2]
Haihua Yang , Minjie Zhou , Binhong He , Wenyuan Xu , Bing Chen , Enxiang Liang . Synthesis and Electrocatalytic Performance of Iron Phosphide@Carbon Nanotubes as Cathode Material for Zinc-Air Battery: a Comprehensive Undergraduate Chemical Experiment. University Chemistry, 2024, 39(10): 426-432. doi: 10.12461/PKU.DXHX202405100
-
[3]
Qiaoqiao BAI , Anqi ZHOU , Xiaowei LI , Tang LIU , Song LIU . Construction of pressure-temperature dual-functional flexible sensors and applications in biomedicine. Chinese Journal of Inorganic Chemistry, 2024, 40(12): 2259-2274. doi: 10.11862/CJIC.20240128
-
[4]
Meiqing Yang , Lu Wang , Haozi Lu , Yaocheng Yang , Song Liu . Recent Advances of Functional Nanomaterials for Screen-Printed Photoelectrochemical Biosensors. Acta Physico-Chimica Sinica, 2025, 41(2): 100018-. doi: 10.3866/PKU.WHXB202310046
-
[5]
Xiufang Wang , Donglin Zhao , Kehua Zhang , Xiaojie Song . “Preparation of Carbon Nanotube/SnS2 Photoanode Materials”: A Comprehensive University Chemistry Experiment. University Chemistry, 2024, 39(4): 157-162. doi: 10.3866/PKU.DXHX202308025
-
[6]
Jie XIE , Hongnan XU , Jianfeng LIAO , Ruoyu CHEN , Lin SUN , Zhong JIN . Nitrogen-doped 3D graphene-carbon nanotube network for efficient lithium storage. Chinese Journal of Inorganic Chemistry, 2024, 40(10): 1840-1849. doi: 10.11862/CJIC.20240216
-
[7]
Bowen Yang , Rui Wang , Benjian Xin , Lili Liu , Zhiqiang Niu . C-SnO2/MWCNTs Composite with Stable Conductive Network for Lithium-based Semi-Solid Flow Batteries. Acta Physico-Chimica Sinica, 2025, 41(2): 100015-. doi: 10.3866/PKU.WHXB202310024
-
[8]
Xingchao Zhao , Xiaoming Li , Ming Liu , Zijin Zhao , Kaixuan Yang , Pengtian Liu , Haolan Zhang , Jintai Li , Xiaoling Ma , Qi Yao , Yanming Sun , Fujun Zhang . 倍增型全聚合物光电探测器及其在光电容积描记传感器上的应用. Acta Physico-Chimica Sinica, 2025, 41(1): 2311021-. doi: 10.3866/PKU.WHXB202311021
-
[9]
Jiarong Feng , Yejie Duan , Chu Chu , Dezhen Xie , Qiu'e Cao , Peng Liu . Preparation and Application of a Streptomycin Molecularly Imprinted Electrochemical Sensor: A Suggested Comprehensive Analytical Chemical Experiment. University Chemistry, 2024, 39(8): 295-305. doi: 10.3866/PKU.DXHX202401016
-
[10]
Fang Niu , Rong Li , Qiaolan Zhang . Analysis of Gas-Solid Adsorption Behavior in Resistive Gas Sensing Process. University Chemistry, 2024, 39(8): 142-148. doi: 10.3866/PKU.DXHX202311102
-
[11]
Hong LI , Xiaoying DING , Cihang LIU , Jinghan ZHANG , Yanying RAO . Detection of iron and copper ions based on gold nanorod etching colorimetry. Chinese Journal of Inorganic Chemistry, 2024, 40(5): 953-962. doi: 10.11862/CJIC.20230370
-
[12]
Jinghan ZHANG , Guanying CHEN . Progress in the application of rare-earth-doped upconversion nanoprobes in biological detection. Chinese Journal of Inorganic Chemistry, 2024, 40(12): 2335-2355. doi: 10.11862/CJIC.20240249
-
[13]
Liwei Wang , Guangran Ma , Li Wang , Fugang Xu . A Comprehensive Analytical Chemistry Experiment: Colorimetric Detection of Vitamin C Using Nanozyme and Smartphone. University Chemistry, 2024, 39(8): 255-262. doi: 10.3866/PKU.DXHX202312094
-
[14]
Mengfei He , Chao Chen , Yue Tang , Si Meng , Zunfa Wang , Liyu Wang , Jiabao Xing , Xinyu Zhang , Jiahui Huang , Jiangbo Lu , Hongmei Jing , Xiangyu Liu , Hua Xu . Epitaxial Growth of Nonlayered 2D MnTe Nanosheets with Thickness-Tunable Conduction for p-Type Field Effect Transistor and Superior Contact Electrode. Acta Physico-Chimica Sinica, 2025, 41(2): 100016-. doi: 10.3866/PKU.WHXB202310029
-
[15]
Di Yang , Jiayi Wei , Hong Zhai , Xin Wang , Taiming Sun , Haole Song , Haiyan Wang . Rapid Detection of SARS-CoV-2 Using an Innovative “Magic Strip”. University Chemistry, 2024, 39(4): 373-381. doi: 10.3866/PKU.DXHX202312023
-
[16]
Yinuo Wu , Jiantao Ye , Xie Zhou , Yu Qian , Lei Guo . Teaching Design of Basic Chemistry Based on PBL Methodology for Medical Undergraduates: A Case Study on “Osmotic Pressure of Solution”. University Chemistry, 2024, 39(3): 149-157. doi: 10.3866/PKU.DXHX202309077
-
[17]
Jingjie Tang , Luying Xie , Jiayu Liu , Shangyu Shi , Xinyu Sun , Jiayang Lin , Qikun Yang , Chuan'ang Yu , Zecheng Wang , Yingying Wang , Zengyang Xie . Efficient Rapid Synthesis and Antibacterial Activities of Tosylhydrazones: A Recommended Innovative Chemistry Experiment for Undergraduate Medical University. University Chemistry, 2024, 39(3): 316-326. doi: 10.3866/PKU.DXHX202309091
-
[18]
Yuping Wei , Yiting Wang , Jialiang Jiang , Jinxuan Deng , Hong Zhang , Xiaofei Ma , Junjie Li . Interdisciplinary Teaching Practice——Flexible Wearable Electronic Skin for Low-Temperature Environments. University Chemistry, 2024, 39(10): 261-270. doi: 10.12461/PKU.DXHX202404007
-
[19]
Qilong Fang , Yiqi Li , Jiangyihui Sheng , Quan Yuan , Jie Tan . Magical Pesticide Residue Detection Test Strips: Aptamer-based Lateral Flow Test Strips for Organophosphorus Pesticide Detection. University Chemistry, 2024, 39(5): 80-89. doi: 10.3866/PKU.DXHX202310004
-
[20]
Nana Wang , Gaosheng Zhang , Huosheng Li , Tangfu Xiao . Discussion on the Teaching Reform of Environmental Functional Materials within the Context of “Double First-Class” Initiative: Emphasizing the Integration of Industry, Academia, Research, and Application. University Chemistry, 2024, 39(6): 137-144. doi: 10.3866/PKU.DXHX202312010
-
[1]
Metrics
- PDF Downloads(2165)
- Abstract views(4153)
- HTML views(23)