DKwon's Laboratory - Publications

Google scholar: https://scholar.google.co.kr/citations?user=iESpZVgAAAAJ&hl=ko

Publications

2023

[38] M. Moon, P. Guha, S. Oh, H. Jung, S. Yang, J.-H. Lee, Y. Jun, J.-W. Son* and D.-H. Kwon*,
"Feasibility evaluation of low-temperature deposited thin-film electrolyte with successive post-annealing for solid oxide fuel cells,"
Journal of Power Sources. 589 (2024) (https://www.sciencedirect.com/science/article/pii/S0378775323011503)

[37] D. Kim, J. Jeon, J. D. Park, X. G. Sun, X. Gao, H. N. Lee, J. L. MacManus-Driscoll, D.-H. Kwon*, and S. Lee*,
“Stable Supercapacity of Binder-Free TiO2(B) Epitaxial Electrodes for All-Solid-State Nanobatteries,”
Nano Lett., vol. 23, no. 15, pp. 6815–6822, Aug. 2023. (https://pubs.acs.org/doi/10.1021/acs.nanolett.3c00596)

[36] D. H. Kim, S. Yang, D.-H. Kwon, H. I. Ji, K. J. Yoon, J. H. Lee, J. H. Shim, and J. W. Son, “Comparison of Various Cathode Materials Fabricated by Pulsed Laser Deposition for Low-Temperature Ceramic Fuel Cells,”
International Journal of Precision Engineering and Manufacturing-Green Technology, pp. 1–10, Jul. 2023.

[35] W. D. Jung, J. S. Kim, Y. J. Kim, H. Jeong, D. Han, K. W. Nam, D. Ahn, D.-H. Kwon, H.-G. Jung, J. H. Lee, and H. Kim, “Annealing-Free Thioantimonate Argyrodites with High Li-Ion Conductivity and Low Elastic Modulus,”
Adv. Funct. Mater., vol. 33, no. 11, p. 2211185, Mar. 2023.
[34] H. Kim, A. Jan, D.-H. Kwon, H. I. Ji, K. J. Yoon, J. H. Lee, Y. Jun, J. W. Son, and S. Yang,
“Exsolution of Ru Nanoparticles on BaCe0.9Y0.1O3-δ Modifying Geometry and Electronic Structure of Ru for Ammonia Synthesis Reaction Under Mild Conditions,”
Small, vol. 19, no. 6, p. e2205424, Feb. 2023.

2022

[33] H. Jeon, D.-H. Kwon, H. Kim, J. H. Lee, Y. Jun, J. W. Son, and S. Park,
“Tailoring shape and exposed crystal facet of single-crystal layered-oxide cathode particles for all-solid-state batteries,” Chemical Engineering Journal, vol. 445, p. 136828, Oct. 2022.

[32] D. H. Kim, S. Yang, D.-H. Kwon, H. I. Ji, J. W. Son, and J. H. Shim, “Improved strontium segregation suppression of lanthanum strontium cobalt oxide cathode via chemical etching and atomic layer deposition,”
International Journal of Energy Research, vol. 46, no. 9, pp. 12467–12475, Jul. 2022.

[31] C. Dun, S. Jeong, D.-H. Kwon, S. Y. Kang, V. Stavila, Z. Zhang, J. W. Lee, T. M. Mattox, T. W. Heo, B. C. Wood, and J. J. Urban, “Hydrogen Storage Performance of Preferentially Oriented Mg/rGO Hybrids,”
Chem. Mater., vol. 34, no. 7, pp. 2963–2971, Apr. 2022.

[30] H. G. Kim, V. R. Nallagatla, C. U. Jung, G.-S. Park, D.-H. Kwon*, and M. Kim*,
“Understanding the Behavior of Oxygen Vacancies in an SrFeOx/Nb:SrTiO3 Memristor,”
Electron. Mater. Lett., vol. 18, no. 2, pp. 168–175, Jan. 2022.

2021

[29] Z. Cai, H. Ji, Y. Ha, J. Liu, D.-H. Kwon, Y. Zhang, A. Urban, E. E. Foley, R. Giovine, H. Kim, Z. Lun, T.-Y. Huang, G. Zeng, Y. Chen, J. Wang, B. D. McCloskey, M. Balasubramanian, R. J. Clément, W. Yang, and G. Ceder,
“Realizing continuous cation order-to-disorder tuning in a class of high-energy spinel-type Li-ion cathodes,”
Matter, vol. 4, no. 12, pp. 3897–3916, Dec. 2021.
[28] J. Huang, P. Zhong, Y. Ha, D.-H. Kwon, M. J. Crafton, Y. Tian, M. Balasubramanian, B. D. McCloskey, W. Yang, and G. Ceder, “Non-topotactic reactions enable high rate capability in Li-rich cathode materials,”
Nature Energy, pp. 1–9, Jul. 2021.

Publications before 2021

[27] Z. Lun†, B. Ouyang†, D.-H. Kwon, Y. Ha, E. E. Foley, T.-Y. Huang, Z. Cai, H. Kim, M. Balasubramanian, Y. Sun, J. Huang, Y. Tian, H. Kim, B. D. McCloskey, W. Yang, R. J. Clément, H. Ji*, G. Ceder*,
“Cation-disordered rocksalt-type high-entropy cathodes for Li-ion batteries,”
Nature Materials, 2020 [26] D.-H. Kwon†*, J. Lee†, N. Artrith, L. Wu, H. Kim, Z. Lun, Y. Tian, Y. Zhu, and G. Ceder*,
“The Impact of Surface Structure Transformations on the Performance of Li-excess Cation-disordered Rocksalt Cathodes,”
Cell Reports Physical Science, vol. 1, no. 9, pp.10087, Sept. 2020. [25] H. G. Kim, V. R. Nallagatla, D.-H. Kwon, C. U. Jung, and M. Kim*,
“In situ observations of topotactic phase transitions in a ferrite memristor,”
J. Appl. Phys., vol. 128, no. 7, pp. 074501, Aug. 2020. [24] J. C. Kim†, D.-H. Kwon†, J. Yang†, H. Kim, S.-H. Bo, L. Wu, H. Kim, D.-H. Seo, T. Shi, J. Wang, Y. Zhu, and G. Ceder* “Direct Observation of Alternating Octahedral and Prismatic Sodium Layers in O3‐Type Transition Metal Oxides,” Adv. Energy Mater., vol. 10, no. 31, p. 2001151, Jun. 2020. [23] H. Kim, D.-H. Kwon, J. C. Kim, B. Ouyang, H. Kim, J. Yang, and G. Ceder*, “Na+ Redistribution by Electrochemical Na+/K+ Exchange in Layered NaxNi2SbO6,” Chem. Mater., vol. 32, no. 10, pp. 4313-4323 2020. [22] H. Ji, J. Wu, Z. Cai, J. Liu, D.-H. Kwon, H. Kim, A. Urban, J. K. Papp, E. Foley, Y. Tian, M. Balasubramanian, H. Kim, R. J. Clément, B. D. McCloskey, W. Yang, and G. Ceder*, “Ultrahigh power and energy density in partially ordered lithium-ion cathode materials,” Nature Energy, vol. 5, no. 3, pp. 213–221, Mar. 2020. [21] Z. Lun, B. Ouyang, Z. Cai, R. J. Clément, D.-H. Kwon, J. Huang, J. K. Papp, M. Balasubramanian, Y. Tian, B. D. McCloskey, H. Ji, H. Kim, D. A. Kitchaev, and G. Ceder*,
“Design Principles for High-Capacity Mn-Based Cation Disordered Rocksalt Cathodes,”
Chem, vol. 6, no. 1, pp. 153–168, Jan. 2020. [20] D.-H. Kwon, S. Lee, C. S. Kang, Y. S. Choi, S. J. Kang, H.-L. Cho, W. Sohn, J. Jo, S.-Y. Lee, K. H. Oh, T. W. Noh, R. A. De Souza, M. Martin*, and M. Kim*,
“Unraveling the Origin and Mechanism of Nanofilament Formation in Polycrystalline SrTiO3 Resistive Switching Memories,”
Adv. Mater., vol. 31, no. 28, p. 1901322, Jul. 2019. [19] H. Ji, D. A. Kitchaev, Z. Lun, H. Kim, E. Foley, D.-H. Kwon, Y. Tian, M. Balasubramanian, M. Bianchini, Z. Cai, R. J. Clément, J. C. Kim, and G. Ceder*, “Computational Investigation and Experimental Realization of Disordered High-Capacity Li-Ion Cathodes Based on Ni Redox,” Chem. Mater., vol. 31, no. 7, pp. 2431–2442, Mar. 2019. [18] H. Ji, A. Urban, D. A. Kitchaev, D.-H. Kwon, N. Artrith, C. Ophus, W. Huang, Z. Cai, T. Shi, J. C. Kim, H. Kim, and G. Ceder*, “Hidden structural and chemical order controls lithium transport in cation-disordered oxides for rechargeable batteries,” Nature Communications, vol. 10, no. 1, p. 592, Feb. 2019. [17] T. Shi, P. Xiao, D.-H. Kwon, G. Sai Gautam, K. Chakarawet, H. Kim, S. H. Bo, and G. Ceder*, “Shear-Assisted Formation of Cation-Disordered Rocksalt NaMO2 (M = Fe or Mn),” Chem. Mater., vol. 30, no. 24, pp. 8811–8821, Nov. 2018. [16] H. Kim, D.-H. Seo, A. Urban, J. Lee, D.-H. Kwon, S. H. Bo, T. Shi, J. K. Papp, B. D. McCloskey, and G. Ceder*,
“Stoichiometric Layered Potassium Transition Metal Oxide for Rechargeable Potassium Batteries,”
Chem. Mater., vol. 30, no. 18, pp. 6532–6539, Sep. 2018. [15] D. A. Kitchaev, Z. Lun, W. D. Richards, H. Ji, R. J. Clément, M. Balasubramanian, D.-H. Kwon, K. Dai, J. K. Papp, T. Lei, B. D. McCloskey, W. Yang, J. Lee, and G. Ceder*, “Design principles for high transition metal capacity in disordered rocksalt Li-ion cathodes,” Energy & Environmental Science, vol. 11, no. 8, pp. 2159–2171, Jun. 2018. [14] J. Lee, D. A. Kitchaev, D.-H. Kwon, C.-W. Lee, J. K. Papp, Y.-S. Liu, Z. Lun, R. J. Clément, T. Shi, B. D. McCloskey, J. Guo, M. Balasubramanian, and G. Ceder*, “Reversible Mn2+/Mn4+ double redox in lithium-excess cathode materials,”
Nature, vol.556, no. 7700, pp. 185–190, Apr. 2018. [13] M. J. Lee, S. Lee, S. Lee, K. Balamurugan, C. Yoon, J. T. Jang, S.-H. Kim, D.-H. Kwon, M. Kim, J.-P. Ahn, D. H. Kim, J.-G. Park, and B. H. Park*, “Synaptic devices based on two-dimensional layered single-crystal chromium thiophosphate (CrPS4),”
NPG Asia Materials, vol. 21, p. 2632, Apr. 2018. [12] J. Lee, J. K. Papp, R. J. Clément, S. Sallis, D.-H. Kwon, T. Shi, W. Yang, B. D. McCloskey, and G. Ceder*,
“Mitigating oxygen loss to improve the cycling performance of high capacity cation-disordered cathode materials,”
Nature Communications, vol. 8, no. 1, pp. 1–10, Oct. 2017. [11] H. Kim, J. C. Kim, S. H. Bo, T. Shi, D.-H. Kwon, and G. Ceder*,
“K-Ion Batteries Based on a P2-Type K0.6CoO2 Cathode,”
Adv. Energy Mater., vol. 7, no. 17, p. 1700098, May 2017. [10] D.-H. Kwon, S. R. Lee, Y. S. Choi, S.-B. Son, K. H. Oh, K. Char, and M. Kim*,
“Observation of the Ni2O3 phase in a NiO thin-film resistive switching system,”
Phys. Stat. Sol. (RRL), vol. 11, no. 5, p. 1700048, Apr. 2017. [09] P. Vassilaras, D.-H. Kwon, S. T. Dacek, T. Shi, D.-H. Seo, G. Ceder, and J. C. Kim*,
“Electrochemical properties and structural evolution of O3-type layered sodium mixed transition metal oxides with trivalent nickel,”
Journal of Materials Chemistry A: Materials for energy and sustainability, vol. 5, no. 9, pp. 4596–4606, Feb. 2017. [08] S. K. Acharya, R. V. Nallagatla, O. Togibasa, B. W. Lee, C. Liu, C. U. Jung*, B. H. Park, J.-Y. Park, Y. Cho, D.-W. Kim, J. Jo, D.-H. Kwon, M. Kim, C. S. Hwang, and S. C. Chae, “Epitaxial Brownmillerite Oxide Thin Films for Reliable Switching Memory,”
ACS Appl. Mater. Interfaces, vol. 8, no. 12, pp. 7902–7911, Mar. 2016. [07] J. Park†, D.-H. Kwon†, H. Park, C. U. Jung, and M. Kim*,
“Role of oxygen vacancies in resistive switching in Pt/Nb-doped SrTiO3,”
Appl. Phys. Lett., vol. 105, no. 18, p. 183103, Nov. 2014. [06] Y. Hu, D. Perello, M. Yun*, D.-H. Kwon, and M. Kim*,
“Variation of switching mechanism in TiO2 thin film resistive random access memory with Ag and graphene electrodes,”
Microelectronic Engineering, vol. 104, no. C, pp. 42–47, Apr. 2013. [05] S. I. Kim*, J. H. Choi*, C. W. Baik, H. Y. Ahn, Y. S. Lee, J. An, C.-S. Choi, K. Pyun, H.-S. Lee, D.-H. Kwon, M.- K. Kim*, M. Kim, and S. Lee, “Electrically driven diffraction grating designed for visible-wavelength region,”
IEEE Electron Device Lett., vol. 34, no. 1, pp. 84–86, Jan. 2013. [04] S. B. Lee, D.-H. Kwon, K. Kim, H. K. Yoo, S. Sinn, M. Kim, B. Kahng, and B. S. Kang*,
“Avoiding fatal damage to the top electrodes when forming unipolar resistance switching in nano-thick material systems,”
J. Phys. D: Appl. Phys., vol. 45, no. 25, p.255101, Jun. 2012. [03] M.-C. Jung*, Y. M. Lee, H. J. Shin, D.-H. Kwon, M. Kim, C. Ko, M. Han, and Y. Park*,
“Spontaneous formation of Ge nanocrystals with the capping layer of Si3N4 by N2+ implantation and rapid thermal annealing,”
Thin Solid Films, vol. 518, no. 21, pp. 6010–6014, Aug. 2010. [02] S. R. Lee, H. M. Kim, J. H. Bak, Y. D. Park, K. Char, H. W. Park, D.-H. Kwon, M. Kim, D.-C. Kim, S. Seo, X.-S. Li, G.-S. Park, and R. Jung*, “Investigation of interface formed between top electrodes and epitaxial NiO films for bipolar resistance switching,”
Jpn. J. Appl. Phys., vol. 49, no. 3, p. 031102, Mar. 2010. [01] 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*, and C. S. Hwang*, “Atomic structure of conducting nanofilaments in TiO2 resistive switching memory,”
Nature Nanotechnology, vol. 5, no. 2, pp. 148–153, Jan. 2010.

Patents

[02] United States Patent No. 20180026184A1, D.-H. Kwon and Miyoung Kim, “Resistance random access memory device” (August 2018)

[01] Korean Patent No. 10-1675582, D.-H. Kwon and Miyoung Kim, “Resistance random access memory device” (November 2016)

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