Local ionic dynamics in solid state films studied by atomic force microscopy

Seol, Daehee 2020년

활용도
공유도
영향력

논문상세정보

- 저자 Seol, Daehee
- 기타서명 원자힘현미경을 통한 고체 박막의 국부적인 이온 역학 연구
- 형태사항 xv, 174 p.: 30 cm: ill., charts
- 일반주기 Adviser: Yunseok Kim, Includes bibliographical reference
- 학위논문사항 Thesis (Ph.D.)-, 2020. 2, Department of Advanced Materials Science and Engineering, Sungkyunkwan university
- 발행지 Seoul
- 언어 eng
- 출판년 2020
- 발행사항 Sungkyunkwan university
- 주제어 Electromechanical response Ionic dynamics Atomic force microscopy Solid-electrolyte Thin films
- 참고문헌( 246)
유사주제 논문( 80)

인용/피인용

Local ionic dynamics in solid state films studied ...

' Local ionic dynamics in solid state films studied by atomic force microscopy' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	Electromechanical response Ionic dynamics atomic force microscopy solid-electrolyte thin films
85	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제어	Electromechanical response	1	0.0%
	Ionic dynamics	1	0.0%
	atomic force microscopy	28	0.0%
	solid-electrolyte	13	0.0%
	thin films	42	0.0%
계		85	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' Local ionic dynamics in solid state films studied by atomic force microscopy' 의 참고문헌

in 2012 Symposium on Piezoelectricity , Acoustic Waves and Device Applications ( SPAWDA )
pp . 373 ? 378 [2012]
ferroelectric oxide made directly on silicon
324 , 367-370 [2009]
dielectric and piezoelectric properties of ferroelectric thin films and ceramics
61 , 1267-1324 ( [1998]
[9] Kwon D H, Kim K M, Jang J H, Jeon J M, Lee M H, Kim G H, Li X S, Park G S, Lee B, Han S, Kim M and HwangC S, Nat. Nanotechnol. 5, 14853 (2010)
5 , 148- 53 [2010]
[9] G. Binnig, H. Rohrer, Sur. Sci. 126, 236 (1983).
126 , 236 [1983]
[9] C. C. Stoumpos, C. D. Malliakas and M. G. Kanatzidis, Inorg. Chem, 52, 9019-9038 (2013).
[8] Yang S, Yan B G, Wu J X, Lu L and Zeng K Y, ACS Appl. Mater. Interfaces 9, 13999-4005 (2017)
9 , 13999-4005 [2017]
[8] W. S. Yang, J. H. Noh, N. J. Jeon, Y.C. Kim, S. Ryu, J. Seo, S. I. Seok, Science, 348, 6240 (2015).
348 , 6240 [2015]
[8] S. V. Kalinin and N. Balke, Adv. Mater. 22, E193?E209 (2010).
[8] G. Binnig,C. F. Quate,Ch. Gerber, Phys. Rev. Lett. 56, 930 (1986).
56 , 930 [1986]
[7] K. Ahadi, S. Stemmer, Phys. Rev. Lett. 118, 236803 (2017).
[7] J.C. Li, A. K. Dozier, Y.C. Li, F. Q. Yang, and Y. T.Cheng, J. Electrochem. Soc. 158, A689?A694 (2011).
[2011]
[7] D. H. Kwon, K. M. Kim, J. H. Jang, J. M. Jeon, M. H. Lee, G. H. Kim, X. S. Li, G. S. Park, B. Lee, S. Han, M. Kim,C. S. Hwang, Nat. Nanotechnol. 5, 148 (2010).
5 , 148 ( [2010]
[6]Chen Q N, Liu Y Y, Liu Y M, Xie S H,Cao G Z and Li J Y, Appl. Phys. Lett. 101, 063901 (2012)
101 , 063901 [2012]
[6] R. Waser, M. Aono, Nat. Mater. 6, 833 (2007).
[6] J.Y. Zhang, H. Kim, E. Mikheev, A.J. Hauser, S. Stemmer, Sci. Rep. 6, 23652 (2016).
6 , 23652 [2016]
[6] D. Seol, B. Kim, Y. Kim,Curr. Appl. Phys., 17, 661-674 (2017).
17 , 661-674 [2017]
[6] D. J. Jendritza, CFI, Ceram. Forum Int. 73, 188?193 (1996).
[5] W. Zhu, K. Yao, and Z. Zhang, Sens. Actuators, A 86, 149?153 (2000).
86 , 149 ? 153 [2000]
[5] Tuller H L and Bishop S R, Annu. Rev. Mater. Res. 41, 369-98 (2011)
41 , 369-98 [2011]
[5] S. Heo,C. Oh, M.J. Eom, J.S. Kim, J. Ryu, J. Son, H.M. Jang, Sci. Rep. 6, 22228 (2016).
6 , 22228 [2016]
[5] R.K. Vasudevan, N. Balke, P. Maksymovych, S. Jesse, S.V. Kalinin, Appl. Phys. Rev., 4, 021302 (2017).
[5] B. B. Owens, J. Power Sources 90, 2 (2000).
[4] Yang J J S, Strukov D B and Stewart D R, Nat. Nanotechnol. 8, 13-24 (2013)
8 , 13-24 [2013]
[4] S. Heo,C. Oh, J. Son, H.M. Jang, Sci. Rep. 7, 4681 (2017).
7 , 4681 [2017]
[4] S. C. Singhal, Solid State Ionics 152, 405 (2002).
[4] Q.N.Chen, Y. Ou, F.Y. Ma, J.Y. Li, Appl. Phys. Lett., 104, 242907 (2014).
104 , 242907 ( [2014]
[3] Sawa A, Mater. Today 11, 28-36 (2008)
11 , 28-36 [2008]
[3] F. Peter, A. Rudiger, K. Szot, R. Waser, B. Reichenberg, IEEE Trans. Ultrason. Ferroelectr. Freq.Control, 53, 2253-2260 (2006).
53 , 2253-2260 ( [2006]
[3] A. Manthiram, X. W. Yu, S. F. Wang, Nat. Rev. Mater. 2, 16103 (2017).
2 , 16103 [2017]
[36] Y. Kim,C. Bae, K. Ryu, H. Ko, Y. K. Kim, S. Hong and H. Shin, Appl. Phys. Lett, 94, 032907 (2009).
94 , 032907 [2009]
[36] Y. Kim, W. Kim, H.Choi, S. Hong, H. Ko, H. Lee, and K. No, Appl. Phys. Lett. 96, 012908 (2010).
96 , 012908 ( [2010]
[35] E. N. Esfahani, X. Y. Liu, J. Y. Li, J. Materiomics 3, 280 (2017).
3 , 280 [2017]
[34] S. Jesse, S. V. Kalinin, Nanotechnology 20, 085714 (2009).
[34] H. Yoo,C. Bae, Y. Yang, S. Lee, M. Kim, H. Kim, Y. Kim and H. Shin, Nano Lett, 14, 4413-4417 (2014).
14 , 4413-4417 [2014]
[33] P. M. Voyles, Curr. Opin. Solid St. M. 21, 141 (2017).
[33] K. W. Park, H. Seo, J. Kim, D. Seol, J. Hong and Y. Kim, Nanotechnology, 25, 355703 (2014).
25 , 355703 [2014]
[33] A. N. Morozovska, E. A. Eliseev, N. Balke, and S. V. Kalinin, J. Appl. Phys. 108, 053712 (2010).
[32] Domingo N, Lopez-Mir L, Paradinas M, Holy V, Zelezny J, Yi D, Suresha S J, Liu J, SerraoC R, Ramesh R, OcalC, Marti X andCatalan G, Nanoscale 7, 3453-9 (2015)
7 , 3453-9 [2015]
[32] B. G. Sumpter, R. K. Vasudevan, T. Potok, S. V. Kalinin, npj Comput. Mater. 1, 15008 (2015).
[31] www.oharacorp.com.
[31] S. V. Kalinin, B. G. Sumpter, R. K. Archibald, Nat. Mater. 14, 973 (2015).
[31] Feng B, Sugiyama I, Hojo H, Ohta H, Shibata N and Ikuhara Y, Sci. Rep. 6, 20288 (2016)
6 , 20288 [2016]
[30] Balke N, Jesse S, Kim Y, Adamczyk L, Tselev A, Ivanov I N, Dudney N J and Kalinin S V, Nano Lett. 10, 3420-5 (2010)
10 , 3420-5 [2010]
[2] S. C. Singhal, Solid State Ionics 135, 305 (2000).
[2] P.C.Canfield, J. D. Thompson, S-W.Cheong, L. W. Rupp, Phys. Rev. B 47, 12357 (1993).
47 , 12357 ( [1993]
[2] N. Balke, I. Bdikin, S.V. Kalinin, A.L. Kholkin, J. Am. Ceram. Soc., 92, 1629- 1647 (2009).
[2] Kim K M, Jeong D S and HwangC S, Nanotechnology 22, 254002 (2011)
22 , 254002 [2011]
[2] A.Clemencon, A. T. Appapillai, S. Kumar, and Y. Shao-Horn, Electrochim. Acta 52, 4572?4580 (2007).
[2007]
[29] Yang N, Belianinov A, Strelcov E, Tebano A, Foglietti V, DiCastro D, SchlueterC, Lee T L, Baddorf A P, Balke N, Jesse S, Kalinin S V, Balestrino G and ArutaC, ACS Nano 8, 12494-501 (2014)
8 , 12494-501 [2014]
[29] B. Kim, D. Seol, S. Lee, H. N. Lee, Y. Kim, Appl. Phys. Lett. 109, 141 (2016).
109 , 141 [2016]
[28] Yang S M, Strelcov E, Paranthaman M P, Tselev A, Noh T W and Kalinin S V, Nano Lett. 15, 1062-9 (2015)
15 , 1062-9 [2015]
[28] Y. Kim,C. Bae, K. Ryu, H. Ko, Y. K. Kim, S. Hong, H. Shin, Appl. Phys. Lett. 94, 032907 (2009).
94 , 032907 [2009]
[28] A. K. Tagantsev, K. Brooks and N. Setter, Integr. Ferroelectr, 4, 1-12 (1994).
[27] P. Yu, W. Luo, D. Yi, J. X. Zhang, M. D. Rossell, C. H. Yang, L. You, G. Singh-Bhalla, S. Y. Yang, Q. He, Q. M. Ramasse, R. Erni, L. W. Martin, Y. H. Chu, S. T. Pantelides, S. J. Pennycook and R. Ramesh, P. Natl. Acad. Sci. USA, 109, 9710-9715 (2012).
[27] C. Harnagea, A. Pignolet, M. Alexe, D. Hesse, and U. Gosele, Appl. Phys. A 70, 261?267 (2000).
[26] S. Jesse and S. V. Kalinin, J. Phys. D: Appl. Phys. 44, 464006 (2011).
[26] Lanza M, Porti M, Nafria M, Aymerich X, Whittaker E and Hamilton B, Rev. Sci. Instrum. 81, 106110 (2010)
81 , 106110 [2010]
[25] Y. Tian, L.Y. Wei, Q.H. Zhang, H.B. Huang, Y.L. Zhang, H. Zhou, F.J. Ma, L. Gu, S. Meng, L.Q.Chen,C.W. Nan, J.X. Zhang, Nat.Commun., 9, 3809 (2018).
9 , 3809 [2018]
[25] S. Jesse and S. V. Kalinin, J. Phys. D Appl. Phys, 44, 464006 (2011).
[25] Proksch R, J. Appl. Phys. 116, 066804 (2014)
116 , 066804 [2014]
[25] A. Kraytsberg and Y. Ein?Eli, J. Power Sources 196, 886?893 (2011).
[24] Y. Yuan, B. Yang and J. Huang, J. Mater.Chem. A, 2, 6027 (2014).
2 , 6027 [2014]
[24] L. N. Kantorovich, A. I. Livshits, M. Stoneham, J. Phys.-Condens Mat. 12, 795 (2000).
[24] J. Fu, Solid State Ionics 104, 191?194 (1997).
104 , 191 ? 194 [1997]
[23]Cleveland J P and Manne S, Rev. Sci. Instrum. 64, 403-5 (1993)
64 , 403-5 [1993]
[23] Z.P. Lei,C.Y. Li, R.J. Men, J.L. He, J. Appl. Phys., 124, 244103 (2018).
124 , 244103 [2018]
[23] S. V. Kalinin and D. A. Bonnell, Phys. Rev. B, 63, 125411 (2001).
[23] M. Lanza, M. Porti, M. Nafria, X. Aymerich, E. Whittaker, B. Hamilton, Rev. Sci. Instrum. 81, 106110 (2010).
81 , 106110 ( [2010]
[23] Information on the fundamental properties such as crystal structure, morphology and conductivity is available at http://www.oharacorp.com.
[22] W. Melitz, J. Shen, A.C. Kummel, S. Lee, Surf. Sci. Rep., 66, 1-27 (2011).
66 , 1-27 ( [2011]
[22] R. K. Vasudevan, N. Balke, P. Maksymovych, S. Jesse, S. V. Kalinin, Appl. Phys. Rev. 4 021302 (2017).
[22] M. Alexe and D. Hesse, Nat. Commun, 2, 256 (2011).
[22] Kim Y, Kumar A, Tselev A, Kravchenko I I, Han H, Vrejoiu I, Lee W, Hesse D, Alexe M, Kalinin S V and Jesse S, ACS Nano 5, 9104-12 (2011)
5 , 9104-12 [2011]
[22] K.M. Kim, D.S. Jeong,C.S. Hwang, Nanotechnology 22, 254002 (2011).
22 , 254002 [2011]
[22] J. Zhu, L. Lu, and K. Y. Zeng, ACS Nano 7, 1666?1675 (2013).
7 , 1666 ? 1675 [2013]
[21] Q. N.Chen, Y. Y. Liu, Y. M. Liu, S. H. Xie, G. Z.Cao, and J. Y. Li, Appl. Phys. Lett. 101, 063901 (2012).
101 , 063901 ( [2012]
[21] I.V. Nikulin, M.A. Novojilov, A.R. Kaul, S.N. Mudretsova, S.V. Kondrashov, Mater. Res. Bull. 39, 775-791 (2004).
39 , 775-791 ( [2004]
[21] D. Seol, B. Kim, Y. Kim,Curr. Appl. Phys. 17, 661 (2017).
17 , 661 [2017]
[20] S.V. Kalinin, Y. Kim, D.D. Fong, A.N. Morozovska, Rep. Prog. Phys., 81, 036502 (2018).
81 , 036502 [2018]
[20] J.L. Garciamunoz, M. Suaaidi, M.J. Martinezlope, J.A. Alonso, Phys. Rev. B 52, 13563-13569 (1995).
52 , 13563-13569 [1995]
[20] H. W.Chen, N. Sakai, M. Ikegami and T. Miyasaka, J. Phys.Chem. Lett, 6, 935-935 (2015).
6 , 935-935 ( [2015]
[1] https://en.wikipedia.org/wiki/Solid_state_ionics.
[1] Z. Yang,C.Y. Ko, S. Ramanathan, Annu. Rev. Mater. Res. 41, 337-367 (2011).
41 , 337-367 [2011]
[1] Scott, J. F. Applications of modern ferroelectrics. Science 315, 954-959 (2007).
[1] S.V. Kalinin, D.A. Bonnell, Phys. Rev. B, 65, 125408 (2002).
[1] K. Kuriyama, A. Onoue, Y. Yuasa, and K. Kushida, Surf. Sci. 601, 2256?2259 (2007).
[1] Jeen H,Choi W S, Biegalski M D, FolkmanC M, Tung IC, Fong D D, Freeland J W, Shin D, Ohta H,Chisholm M F and Lee H N, Nat. Mater. 12, 1057-63 (2013).
12 , 1057-63 [2013]
[19] J. Y. Li, J. F. Li, Q. Yu, Q. N.Chen, S. H. Xie, J. Materiomics 1, 3 (2015).
1 , 3 ( [2015]
[19] D. Preziosi, A. Sander, A. Barthelemy, M. Bibes, AIP Adv., 7, 015210 (2017).
[18] Wen KC, Lv W Q and He W D J. Mater.Chem. A 3, 20031-50 (2015)
3 , 20031-50 [2015]
[18] S. V. Kalinin and D. A. Bonnell, Phys. Rev. B 65, 125408 (2002).
[18] R. Jaramillo, S.D. Ha, D.M. Silevitch, S. Ramanathan, Nat. Phys. 10, 304-307 (2014).
10 , 304-307 [2014]
[18] H. Odagawa, Y. Cho, Appl. Phys. Lett. 80, 2159 (2002).
[17] Y. Kim, E. Strelcov, I.R. Hwang, T.Choi, B.H. Park, S. Jesse, S.V. Kalinin, Sci. Rep. 3, 2924 (2013).
3 , 2924 [2013]
[17] S.K. Kim, R. Bhatia, T.H. Kim, D. Seol, J.H. Kim, H. Kim, W. Seung, Y. Kim, Y.H. Lee, S.W. Kim, Nano Energy, 22, 483-489 (2016).
22 , 483-489 [2016]
[17] Han Y P, Zou M D, Lv W Q, Mao Y W, Wang W and He W D, J. Appl. Phys. 119, 174904 (2016)
119 , 174904 [2016]
[16] S. Kitamura, M. Iwatsuki, Appl. Phys. Lett. 72, 3154 (1998).
72 , 3154 [1998]
[16] S. Kang, S. Jeon, S. Kim, D. Seol, H. Yang, J. Lee, Y. Kim, ACS Appl. Mater. Inter., 10, 27424-27431 (2018).
10 , 27424-27431 [2018]
[16] Kushima A and Yildiz B J. Mater.Chem. 20, 4809-19 (2010)
20 , 4809-19 [2010]
[16] BudgetSensors, https://www.budgetsensors.com/force-modulation-afm-probeplatinum-electrimulti75.
[15] Z. Xiao, Y. Yuan, Y. Shao, Q. Wang, Q. Dong,C. Bi,P. Sharma, A.Gruverman and J. Huang, Nat. Mater, 14, 193 (2014).
14 , 193 [2014]
[15] V. Palermo, M. Palma, P. Samori, Adv. Mater. 18, 145 (2006).
[15] S. Das, B. Wang, Y.Cao, M.R.Cho, Y.J. Shin, S.M. Yang, L.F. Wang, M. Kim, S.V. Kalinin, L.Q.Chen, T.W. Noh, Nat.Commun. 8, 615 (2017).
8 , 615 ( [2017]
[15] Das S, Wang B,Cao Y,Cho M R, Shin Y J, Yang S M, Wang L, Kim M, Kalinin S V,Chen L-Q and Noh T W, Nat.Commun. 8, 615 (2017)
8 , 615 [2017]
[15] A. Gomez, T. Puig, X. Obradors, Appl. Surf. Sci., 439, 577-582 (2018).
439 , 577-582 [2018]
[14] Li Y J, Wang J J, Ye JC, Ke X X, Gou G Y, Wei Y, Xue F, Wang J, WangC S, Peng RC, Deng X L, Yang Y, Ren X B,Chen L Q, NanC W and Zhang J X, Adv. Funct. Mater. 25, 3405-13 (2015)
. Funct .
[14] D. Seol, S.M. Yang, S. Jesse, M.Choi, I. Hwang, T.Choi, B.H. Park, S.V. Kalinin, Y. Kim, Nanotechnology 29, 275709 (2018).
29 , 275709 [2018]
[14] D. Rugar, R. Budakian, H. J. Mamin, B. W.Chui, Nature 430, 329 (2004).
430 , 329 [2004]
[14] A. Labuda, R. Proksch, Appl. Phys. Lett., 106, 253103 (2015).
[13] Y. H. Shao, M. V. Mirkin, J. Phys. Chem. B 102, 9915 (1998).
[13] H. S. Kim, S. K. Kim, B. J. Kim, K. S. Shin, M. K. Gupta, H. S. Jung, S. W. Kim and N. G. Park, J. Phys.Chem. Lett, 6, 1729-1735 (2015).
6 , 1729-1735 ( [2015]
[12] S. Kim, D. Seol, X.L. Lu, M. Alexe, Y. Kim, Sci. Rep., 7, 41657 (2017).
7 , 41657 [2017]
[12] Q. N.Chen, Y. Ou, F. Y. Ma, and J. Y. Li, Appl. Phys. Lett. 104, 242907 (2014).
104 , 242907 ( [2014]
[12] J. M. Frost, K. T. Butler, F. Brivio,C. H. Hendon, M. van Schilfgaarde and A. Walsh, Nano Lett, 14, 2584-2590 (2014).
14 , 2584-2590 [2014]
[11] P. A. Yuya, D.C. Hurley, J. A. Turner, J. Appl. Phys. 104, 074916 (2008).
104 , 074916 ( [2008]
[11] Kim Y, Kelly S J, Morozovska A, Rahani E K, Strelcov E, Eliseev E, Jesse S, Biegalski M D, Balke N, Benedek N, Strukov D, Aarts J, Hwang I, Oh S, Choi J S, Choi T, Park B H, Shenoy V B, Maksymovych P and Kalinin S V, Nano Lett. 13, 4068-74 (2013)
[11] D. Seol, S. Jesse, S.J. Park, W. Lee, S.V. Kalinin, Y. Kim, Nanotechnology 27, 505703 (2016).
27 , 505703 [2016]
[11] B. Kim, D. Seol, S. Lee, H.N. Lee, Y. Kim, Appl. Phys. Lett., 109, 102901 (2016).
109 , 102901 [2016]
[10] Waser R and Aono M, Nat. Mater. 6, 833-40 (2007)
6 , 833-40 [2007]
[10] T. Baikie, Y. N. Fang, J. M. Kadro, M. Schreyer, F. X. Wei, S. G. Mhaisalkar, M. Graetzel and T. J. White, J. Mater.Chem. A, 1, 56285641 (2013).
1 , 5628- 5641 ( [2013]
[10] S. Hong, J. Woo, H. Shin, J.U. Jeon, Y.E. Pak, E.L.Colla, N. Setter, E. Kim, K. No, J. Appl. Phys., 89, 1377-1386 (2001).
89 , 1377-1386 ( [2001]
[10] K. Yamanaka, S. Nakano, Appl. Phys. A-Mater. 66, S313 (1998).
66 , S313 [1998]
Y. Nanoscale mapping of electromechanical response in ionic conductive ceramics with piezoelectric inclusions
118 , 072014 ( [2015]
Y. D. Xia and J. Yin
111 , 044102 [2012]
V. M. Fridkin , S. P. Palto , N. G. Petukhova and S. G. Yudin
85 , 7869-7873 ( [1999]
V. Kiryukhin and S. W. Cheong
324 , 63-66 ( [2009]
Ultrahigh density array of epitaxial ferroelectric nanoislands on conducting substrates .
10 , 2141-2146 ( [2010]
Two-Dimensional Nanoscale Structural and Functional Imaging in Individual Collagen Type I Fibrils
98 , 3070-3077 [2010]
Three-dimensional ferroelectric domain imaging of epitaxial BiFeO3 thin films using angle-resolved piezoresponse force microscopy
97 , 112907 ( [2010]
The band excitation method in scanning probe microscopy for rapid mapping of energy dissipation on the nanoscale
18 , 435503 [2007]
T. N. Murakami and H. J. Snaith
338 , 643-647 [2012]
T. M. Arruda , S. Jesse , F. Ciucci , and S. V. Kalinin ,
[2013]
Switchable induced polarization in LaAlO3/SrTiO3 heterostructures
12 , 1765-1771 [2012]
Suppressed dependence of polarization on epitaxial strain in highly polar ferroelectrics
98 , 217602 [2007]
Strain-based scanning probe microscopies for functional materials , biological structures , and electrochemical systems J. Materiomics
1 , 3-21 [2015]
Solvent engineering for high-performance inorganicorganic hybrid perovskite solarCells
13 , 897 [2014]
Solid State Ionics
303 , 167-71 [2017]
Slow Dynamic Processes in Lead Halide Perovskite SolarCells .Characteristic Times and Hysteresis
5 , 2357 [2014]
Self-consistent modelling of electrochemical strain microscopy in mixed ionic-electronicConductors : Nonlinear and dynamic regimes
118 , 072015 [2015]
Self-Powered Trace Memorization byConjunction ofContactElectrification and Ferroelectricity
25 , 739-747 ( [2015]
S.-H.Kim and K.No
90 , 072910 [2007]
S.-H. Kim and K. No ,
2 , 74-76 [2009]
S. V. Local probing of ionic diffusion by electrochemical strain microscopy : spatial resolution and signal formation mechanisms
108 , 053712 [2010]
S. V. Kalinin and B. H. Park
25 , 2339- 2343 ( [2013]
S. V. Kalinin , and S. Jesse ,
[2011]
S. V. Kalinin , and S. Jesse
23 , 325402 [2012]
S. V. Kalinin , and I. Vrejoiu
103 , 192901 ( [2013]
S. V. Kalinin , and F.Ciucci
37 , 651 ? 658 [2012]
S. V. Kalinin , F.Ciucci
37 , 651 ( [2012]
S. V. Kalinin , A. Tselev
27 , 425707 [2016]
S. V. Kalinin
29 , 445703 [2018]
S. Priya
13 , 582-591 ( [2015]
S. Plyasunov , A. Bachtold , P. L. McEuen , A. Majumdar
77 , 4295 [2000]
S. Mhaisalkar and T.C. Sum
342 , 344-347 ( [2013]
S. Mapping irreversible electrochemical processes on the nanoscale : ionic phenomena in Li ionConductive glassCeramics
11 , 4161-4167 [2011]
S. Jesse , and S. V. Kalinin
3 , 2924 ( [2013]
S. Jesse , E.A . Eliseev , F. Alibart , D. Strukov , S.V . Kalinin
6 , 7026-7033 ( [2012]
S. I. Kwun , Z. G. Khim
58 , 5078 ( [1998]
S. H. Im and N. G. Park
118 , 5615-5625 ( [2014]
R. S. Exponential ionic drift : fast switching and low volatility of thin-film memristors
94 , 515-519 ( [2009]
R. Ramesh and J. L. Wang
4 , [1990]
R. Quantitative measurements of electromechanical response with aCombined optical beam and interferometric atomic force microscope
106 , 253103 ( [2015]
R. K. Vasudevan , S. V. Kalinin
8 , 13838 ( [2016]
R. In-situ piezoresponse force microscopyCantilever mode shape profiling
118 , 072011 ( [2015]
R. Humphry-Baker , J.-H. Yum , J. E. Moser , M. Gratzel , and N.G. Park
2 , 591 ( [2012]
R. Electrochemical strain microscopy of silica glasses
116 , 066804 ( [2014]
Quantitative ferroelectricCharacterization of single submicron grains in Bi-layered perovskite thin films
70 , 261-267 ( [2000]
Principle of ferroelectric domain imaging using atomic force microscope
89 , 1377 [2001]
Power Sources 285
37-42 [2015]
Polarization switching in epitaxial BiFeO3 films
87 , 252902 [2005]
Parameters Affecting I ? V Hysteresis of CH3NH3PbI3 Perovskite Solar Cells : Effects of Perovskite Crystal Size and Mesoporous TiO2 Layer
5 , 2927 [2014]
P. Maksymovych , M.B . Okatan , E. Strelcov , A. Tselev , S.V . Kalinin
118 , 072013 ( [2015]
P. Lacorre , A. I. Nazzal , E. J. Ansaldo , Ch . Niedermayer
45 , 8209 ( [1992]
Origin of surface potential change during ferroelectric switching in epitaxial PbTiO3 thin films studied by scanning force microscopy
94 , 032907 [2009]
O. Almora , G. Garcia-Belmonte , M. Campoy-Quiles and J. Bisquert
6 , 1408-1413 ( [2015]
O. Almora , G. Garcia-Belmonte , M. Campoy-Quiles , J. Bisquert
6 , 1408-1413 ( [2015]
Nonlinear phenomena in multiferroic nanocapacitors : Joule heating and electromechanical effects
5 , 9104-9112 [2011]
Nanoscale piezoelectric characterization of polycrystalline ferroelectrics
19 , 81-94 [2007]
Nanoscale mapping of ion diffusion in a lithium-ion battery cathode
5 , 749-754 [2010]
Nanoscale electromechanical properties of CaCu3Ti4O12 ceramics
110 , 052019 [2011]
Nanometer-scale mapping of irreversible electrochemical nucleation processes on solid Li-ion electrolytes
3 , 1621 ( [2013]
N. Dudney , and S. V. Kalinin
5 , 749 ? 754 ( [2010]
N. Dudney , S.V . Kalinin
5 , 749- 754 ( [2010]
Molecular ferroelectric contributions to anomalous hysteresis in hybrid perovskite solar cells
2 , 081506 [2014]
Measuring oxygen reduction/evolution reactions on the nanoscale
3 , 707-713 [2011]
M.D . Biegalski , N. Balke , N. Benedek , D. Strukov , J. Aarts , I. Hwang , S. Oh , J.S . Choi , T. Choi , B.H . Park ,
P. Maksymovych , S.V
M. Noack and V. Dalal
105 , 153502 ( [2014]
M. Kawai and P. S. Weiss
17 , 1930-1934 ( [1999]
M. B. Okatan , E. Strelcov , A. Tselev , S. V. Kalinin
118 , 072013 ( [2015]
M. Alexe and S. V. Kalinin
6 , 491-500 ( [2012]
M. Alexe , and S. V. Kalinin ,
[2013]
M. Alexe , and E. K. H. Salje
96 , 032904 ( [2010]
M. Alexe , and D. Hesse
114 , 084107 ( [2013]
Local probing of electrochemically induced negative differential resistance in TiO2 memristive materials
24 , 085702 [2013]
L. Y. Beaulieu , T. D. Hatchard , A. Bonakdarpour , M. D. Fleischauer , and J. R. Dahn
[1989]
L. E. Cross , and A. O. Sykes
74 , 3394 ( [1993]
Kalinin S V and Maksymovych P
25 , 475302 [2014]
Kalinin S V and Kholkin A L
108 , 113106 [2016]
Kalinin S V and Ciucci F
37 , 651-8 [2012]
K. No
80 , 1453-1455 [2002]
K. Mahmood , T. K. Ahn , Y. C. Joo , K. S. Hong , N. G. Park , S. Lee and H. S. Jung
8 , 916-921 ( [2015]
K. Effect of cantilever ? sample interaction on piezoelectric force microscopy
80 , 1453 ( [2002]
J. Y. Mechanisms of electromechanical coupling in strain based scanning probe microscopy
104 , 242907 ( [2014]
Ionically-mediated electromechanical hysteresis in transition metal oxides
6 , 7026-7033 [2012]
Ionic polarization-induced current voltage hysteresis in CH3NH3PbX3 perovskite solar cells
7 , 10334 [2016]
Individually addressable epitaxial ferroelectric nanocapacitor arrays with near Tb inch ? 2 density
3 , 402-407 ( [2008]
I. I. Kravchenko , C. H. Wang , Y. C. Teng , L. Q. Chen , Y. H. Chu , and S. V. Kalinin ,
[2013]
Hesse D and Gosele U
70 , 261-7 [2000]
H. Lee and K. No
96 , 012908 ( [2010]
G. Voltage induced local hysteretic phase switching in silicon .
104 , 162908 ( [2014]
G. Polarization in Electrolytic Solutions . Part I . Theory
20 , 1071 ( [1952]
Frequency-Dependent Electromechanical Response in Ferroelectric Materials Measured via Piezoresponse Force Microscopy
784 , C11.3.1-C11.3.6 ( [2004]
Frequency Spectroscopy of Irreversible Electrochemical Nucleation Kinetics on the Nanoscale
5 , 11964 ( [2013]
First-order reversal curve probing of spatially resolved polarization switching dynamics in ferroelectric nanocapacitors
6 , 491-500 ( [2012]
F. Ciucci
37 , 651-658 ( [2012]
Electrochemical strain microscopy : Probing ionic and electrochemical phenomena in solids at the nanometer level
37 , 651-658 [2012]
Electrical control of antiferromagnetic domains in multiferroic BiFeO3 films at room temperature
5 , 823-829 ( [2006]
E. Strelcov , N. Balke , T. M. Arruda , S. Jesse , D. Leonard , and A. Borisevich
[2012]
E. K. H. Nanoscale properties of thin twin walls and surface layers in piezoelectric WO3 ? x
96 , 032904 ( [2010]
E. J. Lingerfelt , R. K. Archibald , C. M. Chen , R. Proksch , N. Laanait , S. Jesse
10 , 9068 ( [2016]
Dudney N and Kalinin S V
5 , 749-54 [2010]
Differentiating Ferroelectric and Nonferroelectric Electromechanical Effects with Scanning Probe Microscopy
9 , 6484-6492 [2015]
Defect-related room-temperature ferroelectricity in tensilestrained SrTiO3 thin films on GdScO3 ( 1( 10 ) substrates .
97 , 242907 ( [2010]
D. Marincel , S. Trolier-McKinstry , S. Jesse , N. Valanoor , and S. V. Kalinin
3 , 2677 ( [2013]
D. Hesse , and M. Alexe
10 , 1266 ? 1270 [2010]
D. Hesse , M. Alexe , S.V . Kalinin , S. Jesse
5 , 9104-9112 ( [2011]
Controlling domain wall motion in ferroelectric thin films
10 , 145-150 [2015]
B. S. Swain , K. Mahmood , J. S. Yoo , N. G. Park , J. H. Lee and H. S. Jung
3 , 9160-9164 ( [2015]
B. D. Huey and N. P. Padture
5 , 3335-3339 ( [2014]
B. Carmichael , S.V . Kalinin , A. Tselev
27 , 425707 [2016]
Ariando , Tsymbal E Y , Catalan G , Eom C B and Gruverman A
15 , 3547- 51 [2015]
Ariando , E.Y . Tsymbal , G. Catalan , C.B . Eom , A. Gruverman
15 , 3547- 3551 ( [2015]
Anomalous Hysteresis in Perovskite Solar Cells
5 , 1511 [2014]
A.M. Kolpak , A.M. Rappe , D.A . Bonnell , J.M . Vohs
7 , 473-477 ( [2008]
A. Timmons , and J. R. Dahn
[2009]
A. Petrozza and H. J. Snaith
342 , 341- 344 ( [2013]
A. P. Baddorf , Y. H. Chu , S. V. Kalinin
8 , 6449 ( [2014]
A. Nanoscale ferroelectrics : processing , characterization and future trends
69 , 2443-2474 [2006]
A. L. Locally induced charged states in La0.89Sr0.11MnO3 single crystals
94 , 222901 ( [2009]
A. L. Electromechanical Imaging and Spectroscopy of Ferroelectric and Piezoelectric Materials : State of the Art and Prospects for the Future
92 , 1629-1647 ( [2009]
A. L. Domanski , I. Lieberwirth , S. Ahmad and R. Berger
5 , 5001 [2014]
A. Gruverman and J. S. Huang
14 , 193-198 ( [2015]
A. Frano , P. Wochner , M. Wu , B. Keimer , P.A . van Aken
99 , 211903 ( [2011]
A. Caneiro , A. Butera , M. ValletRegi , M.J. Sayagues , J. GonzalezCalbet , F. GarciaSanz , J. Rivas
54 , 16574-16578 ( [1996]
A General Survey of Quartz and Quartz-like Materials : Packing Distortions , Temperature , and Pressure Effects
123 , 1-13 [1996]

Local ionic dynamics in solid state films studied by atomic force microscopy

유사주제 논문( 80)

' Local ionic dynamics in solid state films studied by atomic force microscopy' 의 주제별 논문영향력

주제별 논문영향력

' Local ionic dynamics in solid state films studied by atomic force microscopy' 의 참고문헌

' Local ionic dynamics in solid state films studied by atomic force microscopy' 의 유사주제( ) 논문