참고문헌 (33)

1. Wang, Zhong Lin, Wu, Wenzhuo. Nanotechnology‐Enabled Energy Harvesting for Self‐Powered Micro‐/Nanosystems. Angewandte Chemie. international edition, vol.51, no.47, 11700-11721.

   상세보기

2. Mukerjee, E.V, Wallace, A.P, Yan, K.Y, Howard, D.W, Smith, R.L, Collins, S.D. Vaporizing liquid microthruster. Sensors and actuators. A, Physical, vol.83, no.1, 231-236.

   상세보기

3. Avci, A.K., Trimm, D.L., Karakaya, M.. Microreactor catalytic combustion for chemicals processing. Catalysis today, vol.155, no.1, 66-74.

   상세보기

4. DiBiaso, Heather H., English, Brian A., Allen, Mark G.. Solid-phase conductive fuels for chemical microactuators. Sensors and actuators. A, Physical, vol.111, no.2, 260-266.

   상세보기

5. Choi, Wonjoon, Hong, Seunghyun, Abrahamson, Joel T., Han, Jae-Hee, Song, Changsik, Nair, Nitish, Baik, Seunghyun, Strano, Michael S.. Chemically driven carbon-nanotube-guided thermopower waves. Nature materials, vol.9, no.5, 423-429.

   상세보기

6. Choi, W., Abrahamson, J.T., Strano, J.M., Strano, M.S.. Carbon nanotube-guided thermopower waves. Materials today, vol.13, no.10, 22-33.

   상세보기

7. Abrahamson, Joel T., Choi, Wonjoon, Schonenbach, Nicole S., Park, Jungsik, Han, Jae-Hee, Walsh, Michael P., Kalantar-zadeh, Kourosh, Strano, Michael S.. Wavefront Velocity Oscillations of Carbon-Nanotube-Guided Thermopower Waves: Nanoscale Alternating Current Sources. ACS nano, vol.5, no.1, 367-375.

   상세보기

8. Abrahamson, Joel T., Sempere, Bernat, Walsh, Michael P., Forman, Jared M., Şen, Fatih, Şen, Selda, Mahajan, Sayalee G., Paulus, Geraldine L. C., Wang, Qing Hua, Choi, Wonjoon, Strano, Michael S.. Excess Thermopower and the Theory of Thermopower Waves. ACS nano, vol.7, no.8, 6533-6544.

   상세보기

9. Mahajan, Sayalee G., Wang, Qing Hua, Strano, Michael S., Abrahamson, Joel T.. Energy generation using thermopower waves: Experimental and analytical progress. AIChE journal, vol.59, no.9, 3333-3341.

   상세보기

10. Lee, Kang Yeol, Hwang, Hayoung, Choi, Wonjoon. Advanced Thermopower Wave in Novel ZnO Nanostructures/Fuel Composite. ACS applied materials & interfaces, vol.6, no.17, 15575-15582.

    상세보기

11. Walia, Sumeet, Weber, Rodney, Balendhran, Sivacarendran, Yao, David, Abrahamson, Joel T., Zhuiykov, Serge, Bhaskaran, Madhu, Sriram, Sharath, Strano, Michael S., Kalantar-zadeh, Kourosh. ZnO based thermopower wave sources. Chemical communications : Chem comm, vol.48, no.60, 7462-7464.

    상세보기

12. Walia, Sumeet, Balendhran, Sivacarendran, Yi, Pyshar, Yao, David, Zhuiykov, Serge, Pannirselvam, Muthu, Weber, Rodney, Strano, Michael S., Bhaskaran, Madhu, Sriram, Sharath, Kalantar-zadeh, Kourosh. MnO₂-Based Thermopower Wave Sources with Exceptionally Large Output Voltages. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.117, no.18, 9137-9142.

    상세보기

13. Hwang, H., Lee, K.Y., Yeo, T., Choi, W.. Investigation of structural and chemical transitions in copper oxide microstructures produced by combustion waves in a mixture of CuO-Cu₂O-Cu and fuel. Applied surface science, vol.359, 931-938.

    상세보기

14. Lee, Kang Yeol, Hwang, Hayoung, Shin, Dongjoon, Choi, Wonjoon. Enhanced thermopower wave via nanowire bonding and grain boundary fusion in combustion of fuel/CuO-Cu₂O-Cu hybrid composites. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.10, 5457-5466.

    상세보기

15. Walia, Sumeet, Weber, Rodney, Sriram, Sharath, Bhaskaran, Madhu, Latham, Kay, Zhuiykov, Serge, Kalantar-zadeh, Kourosh. Sb₂Te₃ and Bi₂Te₃ based thermopower wave sources. Energy & environmental science, vol.4, no.9, 3558-3564.

    상세보기

16. Hong, Seunghyun, Kim, Wonyoung, Jeon, Seong-Jae, Lim, Seong Chu, Lee, Hoo-Jeong, Hyun, Seungmin, Lee, Young Hee, Baik, Seunghyun. Enhanced Electrical Potential of Thermoelectric Power Waves by Sb₂Te₃-Coated Multiwalled Carbon Nanotube Arrays. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.117, no.2, 913-917.

    상세보기

17. Yeo, Taehan, Hwang, Hayoung, Cho, Yonghwan, Shin, Dongjoon, Choi, Wonjoon. Voltage amplification of thermopower waves via current crowding at high resistances in self-propagating combustion waves. Nanotechnology, vol.26, no.30, 305402-.

    상세보기

18. Hwang, Hayoung, Yeo, Taehan, Um, Jo-Eun, Lee, Kang Yeol, Kim, Hong-Seok, Han, Jae-Hee, Kim, Woo-Jae, Choi, Wonjoon. Investigation of the effect of the structure of large-area carbon nanotube/fuel composites on energy generation from thermopower waves. Nanoscale research letters, vol.9, no.1, 536-536.

    상세보기

19. Lee, Kang Yeol, Hwang, Hayoung, Choi, Wonjoon. Phase Transformations of Cobalt Oxides in Co_xO_y–ZnO Multipod Nanostructures via Combustion from Thermopower Waves. Small, vol.11, no.36, 4762-4773.

    상세보기

20. Shin, Jungho, Lee, Kang Yeol, Yeo, Taehan, Choi, Wonjoon. Facile One-pot Transformation of Iron Oxides from Fe ₂ O ₃ Nanoparticles to Nanostructured Fe ₃ O ₄ @C Core-Shell Composites via Combustion Waves. Scientific reports, vol.6, 21792-.

    상세보기

21. Yeo, Taehan, Hwang, Hayoung, Jeong, Dong-Cheol, Yeol Lee, Kang, Hong, Jongsup, Song, Changsik, Choi, Wonjoon. Effects of chemical fuel composition on energy generation from thermopower waves. Nanotechnology, vol.25, no.44, 445403-.

    상세보기

22. Lee, Kang Yeol, Hwang, Hayoung, Shin, Dongjoon, Choi, Wonjoon. Manipulation of combustion waves in carbon-nanotube/fuel composites by highly reactive Mg nanoparticles. Nanoscale, vol.7, no.40, 17071-17078.

    상세보기

23. Mahajan, Sayalee G., Liu, Albert Tianxiang, Cottrill, Anton L., Kunai, Yuichiro, Bender, David, Castillo, Javier, Gibbs, Stephen L., Strano, Michael S.. Sustainable power sources based on high efficiency thermopower wave devices. Energy & environmental science, vol.9, no.4, 1290-1298.

    상세보기

24. Mahajan, Sayalee G., Abrahamson, Joel T., Birkhimer, Stephanie, Friedman, Eric, Wang, Qing Hua, Beck, Margaret, Strano, Michael S.. Superadiabaticity in reaction waves as a mechanism for energy concentration. Energy & environmental science, vol.7, no.10, 3391-3402.

    상세보기

25. Singh, H., Somayajulu, M.R., Bhaskara Rao, R.. A study on combustion behavior of magnesiumsodium nitrate binary mixtures. Combustion and flame, vol.76, no.1, 57-61.

    상세보기

26. Hussain, G., Rees, G. J.. A study on combustion behaviour of carbon-sulphur-sodium nitrate mixtures. Journal of thermal analysis, vol.37, no.4, 757-762.

    상세보기

27. Sato, Katsuya, Yamaguchi, Masahito, Fujita, Satoru, Suzuki, Kenzi, Mori, Toshiaki. Enhancement of the activity of calcium aluminosilicate (Ca₁₂Al₁₀Si₄O₃₅) for the combustion of diesel soot via the substitution of Ca²⁺ ions with transition metal ions. Catalysis communications, vol.7, no.3, 132-135.

    상세보기

28. Acevedo, O., Jorgensen, W. L.. Solvent Effects and Mechanism for a Nucleophilic Aromatic Substitution from QM/MM Simulations. Organic letters, vol.6, no.17, 2881-2884.

    상세보기

29. Dar, G. N., Umar, Ahmad, Zaidi, Shabi Abbas, Baskoutas, S., Kim, S. H., Abaker, M., Al-Hajry, A., Al-Sayari, S. A.. Fabrication of Highly Sensitive Non-Enzymatic Glucose Biosensor Based on ZnO Nanorods. Science of advanced materials, vol.3, no.6, 901-906.

    상세보기

30. Chen, Ming-Liang, Oh, Won-Chun. Synthesis and highly visible-induced photocatalytic activity of CNT-CdSe composite for methylene blue solution. Nanoscale research letters, vol.6, no.1, 398-398.

    상세보기

31. 10.1002/9783527627868 

    

32. Liu, Albert Tianxiang, Kunai, Yuichiro, Liu, Pingwei, Kaplan, Amir, Cottrill, Anton L., Smith‐Dell, Jamila S., Strano, Michael S.. Electrical Energy Generation via Reversible Chemical Doping on Carbon Nanotube Fibers. Advanced materials, vol.28, no.44, 9752-9757.

    상세보기

33. Kittel, Charles, Holcomb, Donald F.. Introduction to Solid State Physics. American journal of physics, vol.35, no.6, 547-548.

    상세보기