최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기전기화학회지 = Journal of the Korean Electrochemical Society, v.21 no.4, 2018년, pp.68 - 79
이주혁 (대구경북과학기술원에너지공학전공)
Currently, hybridization of energy generator and storage devices is considered to be one of the most important energy-related technologies due to the possibility of replacing batteries or extending the lifetime of a batteries in accordance with increasing battery demand. This review aims to describe...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
에너지하베스팅 기술이란? | 최근, 주변에서 버려지는 에너지원을 전기에너지로 변환하는 에너지하베스팅 기술이 활발히 연구되고 있다. 특히 기계에너지를 전기에너지로 변환하는 압전 및마찰대전 특성을 이용한 에너지 발전소자 관련 연구가 활발히 진행되고 있다. | |
신재생 에너지 개발이 에너지 분야에서 중요한 이유는? | 화석연료의 사용에 따른 대기/수질 오염 및 석유 고갈 문제 해결을 위하여 화석연료를 대체할 수 있는 신재생 에너지 개발 문제는 현재 에너지분야에서 가장 중요하고 도전적인 분야중 하나이다. 특히 햇빛, 바람, 비, 조수/파도, 지열 등을 이용한 신재생 에너지원 연구는 활발하게 연구되어 왔으며 이러한 에너지 원은 메가/기가 와트 크기의 전력을 생산해내는 에너지원으로 주요 파워그리드와 통합되어질 것이다. | |
자가충전형 에너지소자가 에너지 손실을 줄이는 방법은? | 자가충전형 에너지소자는 에너지 발전소자를 에너지 저장소자와 융합하는 혁신적인 방법을 제공하였다. 자가충전형 배터리 및 슈퍼캐패시터는 에너지 발전소자에서 발생된 에너지의 외부 회로에서의 손실을 획기적으로 줄일수 있으며 기계 에너지를 전기 화학 에너지로 바로 변환하여 에너지 변환과정에서 발생하는 에너지 손실을 줄인다. 이러한 혁신적인 에너지 변환 기술은 미래 마이 크로 / 나노 시스템 및 모바일 / 휴대용 전자 기기의 지속 가능하고 유지 보수가 필요없는 동작을 가능하게 하는 중요한 연구 분야이며 앞으로도 활발히 연구될 것으로 전망된다. |
J. Oh, H.-C. Yuan and H. M. Branz, 'An 18.2%-efficient black-silicon solar cell achieved through control of carrier recombination in nanostructures', Nat. Nanotechnol., 7, 743 (2012)
Y. Qin, X. Wang and Z. L. Wang, 'Microfibre-nanowire hybrid structure for energy scavenging', Nature, 451, 809 (2007)
M. Gratzel, 'Photoelectrochemical cells', Nature, 414, 338 (2001)
A. C. Dilion, K. M. Jones, T. A. Bekkedahl, C. H. Kiang, D. S. Bethune and M. J. Heben, 'Storage of hydrogen in single-walled carbon nanotubes', Nature, 386, 377 (1997)
Z. L. Wang and J. Song, 'Piezoelectric nanogenerators based on zinc oxide nanowire arrays', Science, 312, 242 (2006).
W. Wu, L. Wang, Y. Li, F. Zhang, L. Lin, S. Niu, D. Chenet, X. Zhang, Y. Hao, T. F. Heinz, J. Hone and Z. L. Wang, 'Piezoelectricity of single-atomic-layer $MoS_2$ for energy conversion and piezotronics', Nature, 514, 470 (2014).
S. Xu, Y. Qin, C. Xu, Y. Wei, R. Yang and Z. L. Wang, 'Self-powered nanowire devices', Nat. Nanotechnol., 5, 366 (2010).
F.-R. Fan, Z.-Q. Tian and Z. L. Wang, 'Flexible triboelectric generator', Nano Energy, 1, 328 (2012)
G. Zhu, J. Chen, T. Zhang, Q. Jing and Z. L. Wang, 'Radial-arrayed rotary electrification for high performance triboelectric generator', Nat. Commun., 5, 3426 (2014).
Q. Jing, Y. Xie, G. Zhu, R. P. S. Han and Z. L. Wang, 'Self-powered thin-film motion vector sensor', Nat. Commun., 5, 8031 (2015)
S. Kim, T. Y. Kim, K. H. Lee, T.-H. Kim, F. A. Cimini, S. K. Kim, R. Hinchet, S.-W. Kim, C. Falconi, 'Rewritable ghost floating gates by tunnelling triboelectrification for two-dimensional electronics', Nat. Commun., 8, 15891 (2017)
B. Y. Lee, J. Zhang, C. Zueger, W. J. Chung, S. Y. Yoo, E. Wang, J. Meyer, R. Ramesh, and S. W. Lee. 'Virusbased Piezoelectric Energy Generation', Nat. Nanotechnol., 7, 351 (2012)
C. Dagdeviren, B.D. Yang, Y. Su, P.L. Tran, P. Joe, E. Anderson, J. Xia, V. Doraiswamy, B. Dehdashti, X. Feng, B. Lu, R. Poston, Z. Khalpey, R. Ghaffari, Y. Huang, M.J. Slepian and J.A. Rogers, 'Conformal Piezoelectric Energy Harvesting and Storage From Motions of the Heart, Lung, and Diaphragm,' Proc. Natl. Acad. Sci., 111, 1927 (2014)
J.-M. Tarascon, 'Issues and challenges facing lithium batteries', Nature, 414, (2001)
T. H. Kim, J. S. Park, S. K. Chang, S. Choi, J. H. Ryu, H. K. Song, 'The current move of lithium ion batteries towards the next phase', Adv. Energy Mater., 2, (2012)
B. Dunn, H. Kamath, and J.-M. Tarascon, 'Electrical Energy Storage for the Grid: A Battery of Choices', SCIENCE, 334, 928 (2011).
Y.-K. Sun, Z. Chen, H.-J. Noh, D.-J. Lee, H.-G. Jung, Y. Ren, S. Wang, C. S. Yoon, S.-T. Myung, and K. Amine, 'Nanostructured High-Energy Cathode Materials for Advanced Lithium Batteries', Nat. Mater., 11, 942-947 (2012).
J. Curie, P. Curie, 'development par compression de l'electricite polaire dans les cristaux hemiedres a faces inclines', Comptes Rendus Acad. Sci. Paris 91, 294 (1880).
M.-P. Lu, J. Song, M.-Y. Lu, M.-T. Chen, Y. Gao, L.-J. Chen and Z. L. Wang, 'Piezoelectric Nanogenerator Using p-Type ZnO Nanowire Arrays', Nano Lett., 9, 1223 (2009)
C.-T. Huang, J. Song, W.-F. Lee, Y. Ding, Z. Gao, Y. Hao, L.-J. Chen and Z. L. Wang, 'GaN Nanowire Arrays for High-Output Nanogenerators' J. Am. Chem. Soc., 132, 4766 (2010)
Y.-F. Lin, J. Song, Y. Ding, S.-Y. Lu and Z. L. Wang, 'Alternating the Output of a CdS Nanowire Nanogenerator by a White?Light?Stimulated Optoelectronic Effect', Adv. Mater., 20, 3127 (2008)
C.-T. Huang, J. Song, C.-M. Tsai, W.-F. Lee, D.-H. Lien, Z. Gao, Y. Hao, L.-J. Chen and Z. L. Wang, 'Single-InNNanowire Nanogenerator with Upto 1 V Output Voltage', Adv. Mater., 22, 4008 (2010)
Y. Qi, J. Kim, T. D. Nguyen, B. Lisko, P. L. Purohit, and M. C. McAlpine, 'Enhanced Piezoelectricity and Stretchability in Energy Harvesting Devices Fabricated from Buckled PZT Ribbons', Nano Lett., 11, 1331 (2011)
Z. Wang, J. Hu, A. P. Suryavanshi, K. Yum and M.-F. Yu, 'Voltage Generation from Individual $BaTiO_3$ Nanowires under Periodic Tensile Mechanical Load', Nano Lett., 7, 2966 (2007)
J. H. Jung, C.-Y. Chen, B. K. Yun, N. Lee, Y. Zhou, W. Jo, L-J. Chou and Z. L. Wang, 'Lead-free $KNbO_3$ ferroelectric nanorod based flexible nanogenerators and capacitors', Nanotechnology, 23, 375401 (2012)
J. H. Jung, M. Lee, J.-I. Hong, Y. Ding, C.-Y. Chen, L.- J. Chou and Z. L. Wang, 'Lead-Free $NaNbO_3$ Nanowires for a High Output Piezoelectric Nanogenerator' ACS Nano, 5, 10041 (2011).
C. Chang, V. H. Tran, J. Wang, Y.-K. Fuh and L. Lin, 'Direct-Write Piezoelectric Polymeric Nanogenerator with High Energy Conversion Efficiency', Nano Lett., 10, 726 (2010)
J.-H. Lee, K. Y. Lee, M. K. Gupta, T. Y. Kim, D.-Y. Lee, J. Oh, C. Ryu, W. J. Yoo, C.-Y. Kang, S.-J. Yoon, J.-B. Yoo, S.-W. Kim, 'Highly Stretchable Piezoelectric- Pyroelectric Hybrid Nanogenerator', Adv. Mater., 26, 765 (2014)
Q. Yang, W. wang, S. Xu, and Z. L. Wang, 'Enhancing Light Emission of ZnO Microwave-Based Diodes by Piezo-Phototronic Effect', Nano Lett., 11, 4012 (2011)
Q. Yang, X. Guo, W. Wang, Y. Zhang, S. Xu, D. H. Lien, and Z. L. Wang, 'Enhancing Sensitivity of a Single ZnO Micro-/Nanowire Photodetector by Piezo-phototronic Effect' ACS Nano, 4, 6285 (2010)
Y. Yang, W. Guo, Y. Zhang, Y. Ding, X. Wang, and Z. L. Wang, 'Piezotronic Effect on the Output Voltage of P3HT/ZnO Micro/Nanowire Heterojunction Solar Cells', Nano Lett., 11, 4812 (2011)
M. T. Ong, K.-A. N. Duerloo, and E. J. Reed, 'The Effect of Hydrogen and Fluorine Coadsorption on the Piezoelectric Properties of Graphene', J. Phys. Chem. C, 117, 3615 (2013)
M. N. Blonsky, H. L. Zhuang, A. K. Singh, and R. G. Hennig, 'Ab Initio Prediction of Piezoelectricity in Two- Dimensional Materials', ACS Nano, 9, 9885 (2015)
T. Li, K. Y. Zeng, 'Nano-hierarchical structure and electromechanical coupling properties of clamshell', J. Struct. Biol. 180, 73 (2012).
N. Mikami, M. Honma, 'Ferroelectric liquid crystal alignment films utilizing poly(DL-amino acid)s and fibrous proteins', japan. j. pol. sci. tech. 56, 396 (1999).
N. Amdursky, P. Beker, J. Schklovsky, E. Gazit, G. Rosenman, 'Ferroelectric and Related Phenomena in Biological and Bioinspired Nanostructures', Ferroelectrics 399, 107 (2010)
K.-A. N. Duerloo, M. T. Ong, and E. Reed, 'Intrinsic Piezoelectricity in Two-Dimensional Materials', J. Phys. Chem. Lett., 3, 2871 (2012)
H. Zhu, Y. Wang, J. Xiao, M. Liu, S. Xiong, Z. J. Wong, Z. Ye, Y. Ye, X. Yin, and X. Zhang, 'Observation of piezoelectricity in free-standing monolayer $MoS_2$ ' Nat. Nanotechnol. 10, 151 (2015)
J.-H. Lee, J. Y. Park, E. B. Cho, T. Y. Kim, S. A. Han, T.-H. Kim, Y. Liu, S. K. Kim, C. J. Roh, H.-J. Yoon, H. Ryu, W. Seung, J. S. Lee, J. Lee, S.-W. Kim, 'Reliable Piezoelectricity in Bilayer WSe2 for Piezoelectric Nanogenerators', Adv. Mater., 29, 1606667 (2017)
J. C. Anderson, C. Eriksson, 'Piezoelectric Properties of Dry and Wet Bone', Nature 227, 491 (1970)
E. Fukada, 'Piezoelectricity of Wood', J. Phys. Soc. Jpn. 10, 149 (1955)
H. Athenstaedt, H. Claussen, D. Schaper, 'Epidermis of Human-Skin - Pyroelectric and Piezoelectric Sensor Layer', Science 216, 1018 (1982)
S. Guerin, A. Stapleton, D. Chovan, R. Mouras, M. Gleeson, C. McKeown, M. R. Noor, C. Silien, F. M. F. Rhen, A. L. Kohlkin, N. Liu, T. Soulimane, S. A. M. Tofail, and D. Thompson, 'Control of piezoelectricity in amino acids by supramolecular packing', Nat. Mater., 17, 180(2018)
A. Kholkin, N. Amdursky, I. Bdikin, E. Gazit, G. Rosenman, 'Strong Piezoelectricity in Bioinspired Peptide Nanotubes', ACS Nano 4, 610 (2010)
S. Vasilev, P. Zelenovskiy, D. Vasileva, A. Nuraeva, V. Y. Shur, A. L. Kholkin, 'Piezoelectric properties of diphenylalanine microtubes prepared from the solution', J. Phys. Chem. Solids. 93, 68 (2016)
V. Nguyen, R. Zhu, K. Jenkins, R. S. Yang, 'Selfassembly of diphenylalanine peptide with controlled polarization for power generation', Nat. Commun. 7, 13566 (2016)
J.-H. Lee, K. Heo, K. Schulz-Schonhagen, J. H. Lee, M. S. Desai, H.-E. Jin, S.-W. Lee, 'Diphenylalanine Peptide Nanotube Energy Harvesters', ACS Nano, 12, 8138 (2018)
Z. L. Wang, 'Triboelectric nanogenerator as new energy technology and self-powered sensors - Principles, problems and perspectives', Faraday Discuss., 176, 447 (2014)
F.-R. Fan, L. Lin, G. Zhu, W. Wu, R. Zhang, and Z. L. Wang, 'Transparent Triboelectric Nanogenerators and Self-Powered Pressure Sensors Based on Micropatterned Plastic Films' Nano Lett., 12, 3109 (2012)
K. Y. Lee, J. Chun, J.-H. Lee, K. N. Kim, N.-R. Kang, J.-Y. Kim, M. H. Kim, K.-S. Shin, M. K. Gupta, J. M. Baik, and S.-W. Kim, 'Hydrophobic Sponge Structure- Based Triboelectric Nanogenerator', Adv. Mater., 26, 5037 (2014)
W. Seung, M. K. Gupta, K. Y. Lee, K.-S. Shin, J.-H. Lee, T. Y. Kim, S. Kim, J. Lin, J. H. Kim, and S.-W. Kim, 'Nanopatterned Textile-Based Wearable Triboelectric Nanogenerator', 9, 3501 (2015)
K. Y. Lee, J. Bae, S. Kim, J.-H. Lee, G. C. Yoon, M. K. Gupta, S. Kim, H. Kim, J. Park and S.-W. Kim, 'Depletion width engineering via surface modification for high performance semiconducting piezoelectric nanogenerators', Nano Energy, 8, 165 (2014)
G.-T. Hwang, H. Park, J.-H. Lee, S. Oh, K.-I. Park, M. Byun, H. Park, G. Ahn, C. K. Jeong, K. No, H. Kwon, S.-G. Lee, B. Joung and K. J. Lee, 'Self?Powered Cardiac Pacemaker Enabled by Flexible Single Crystalline PMN-PT Piezoelectric Energy Harvester', Adv. Mater., 26, 4880 (2014)
K. N. Kim, J. Chun, J. W. Kim, K. Y. Lee, J.-U. Park, S.-W. Kim, Z. L. Wang and J. M. Baik, 'Highly Stretchable 2D Fabrics for Wearable Triboelectric Nanogenerator under Harsh Environments' ACS Nano, 9, 6394 (2015)
G.-T. Hwang, Y. Kim, J.-H. Lee, S. Oh. C. K. Jeong, D. Y. Park, J. Ryu, H. Kwon, S.-G. Lee, B. Joung, D. Kim and K. J. Lee, 'Self-powered deep brain stimulation via a flexible PIMNT energy harvester' Energy Environ. Sci., 8, 2677 (2015)
G. A. Lesieutre, G. K. Ottman and H. F. Hofmann, 'Damping as a result of piezoelectric energy harvesting', J. Sound Vib., 269, 991 (2004)
X. Xue, S. Wang, W. Guo, Y. Zhang and Z. L. Wang, 'Hybridizing Energy Conversion and Storage in a Mechanical-to-Electrochemical Process for Self-Charging Power Cell', Nano Lett., 12, 5048 (2012)
X. Xue, P. Deng, S. Yuan, Y. Nie, B. He, L. Xing and Y. Zhang, 'CuO/PVDF nanocomposite anode for a piezodriven self-charging lithium battery', Energy Environ. Sci., 6, 2615 (2013)
X. Xue, P. Deng, B. He, Y. Nie, L. Xing, Y. Zhang and Z. L. Wang, 'Flexible Self-Charging Power Cell for One- Step Energy Conversion and Storage', Adv. Energy Mater., 4, 1301329 (2013)
Y.-S. Kim, Y. Xie, X. Wen, S. Wang, S. J. Kim, H.-K. Song and Z. L. Wang, 'Highly porous piezoelectric PVDF membrane as effective lithium ion transfer channels for enhanced self-charging power cell', Nano Energy, 14, 77 (2015)
Y. Zhang, Y. Zhang, X. Xue, C. Cui, B. He, Y. Nie, P. Deng and Z. L. Wang, 'PVDF-PZT nanocomposite film based self-charging power cell', Nanotechnology, 25, 105401 (2014)
R. Song, H. Jin, X. Li, L Fei, Y. Zhao, H. Huang, H. L.- W. Chan, Y. Wang and Y. Chai, 'A rectification-free piezo-supercapacitor with a polyvinylidene fluoride separator and functionalized carbon cloth electrodes', J. Mater. Chem. A 3, 14963 (2015)
A. Ramadoss, B. Saravanakumar, S. W. Lee, Y.-S. Kim, S. J. Kim and Z. L. Wang, 'Piezoelectric-Driven Self- Charging Supercapacitor Power Cell', ACS Nano, 9, 4337 (2015)
E. P. Gilshteyn, D. Amanbaev, M. V. Silibin, A. Sysa, V. A. Kondrashov, A. S. Anisimov, T. Kallio, and A. G. Nasibulin, Flexible self-powered piezo-supercapacitor system for wearable electronics, Nanotechnology, 29, 325501 (2018)
P. Pazhamalai, K. Krishnamoorthy, V. K. Mariappan, S. Sahoo, S. Manoharan, and S.-J. Kim, A High Efficacy Self-Charging $MoSe_2$ Solid-State Supercapacitor Using Electrospun Nanofibrous Piezoelectric Separator with Ionogel Electrolyte, Adv. Mater. Interfaces, 5, 1800055 (2018)
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.