Publications

Bertold Rasche. Can electrochemistry help to understand superconductivity – β-Fe$_1+x$Se as a case study. Curr. Op. Electrochem., (25):100630, February 2021. [PUMA: Intercalation Iron Selenium Solid_state Superconductivity] URL

Y. T. Chan, E. Uykur, M. A. Belyanchikov, M. Dressel, V. A. Abalmasov, V. Thomas, E. S. Zhukova, and B. Gorshunov. Effect of hydrostatic pressure on the quantum paraelectric state of dipolar coupled water molecular network. Phys. Rev. Research, (4)2:023205, American Physical Society, June 2022. [PUMA: dipolar-coupled-water-molecular-network superconductivity] URL

M. Wenzel, B. R. Ortiz, S. D. Wilson, M. Dressel, A. A. Tsirlin, and E. Uykur. Optical study of RbV3Sb5: Multiple density-wave gaps and phonon anomalies. Phys. Rev. B, (105)24:245123, American Physical Society, June 2022. [PUMA: charge-density-waves non-magnetic-kagome-metal superconductivity] URL

Ece Uykur, Brenden R. Ortiz, Stephen D. Wilson, Martin Dressel, and Alexander A. Tsirlin. Optical detection of the density-wave instability in the kagome metal KV3Sb5. npj Quantum Materials, (7)1:16, Jan 28, 2022. [PUMA: density-wave-instability kagome-metal optical-detection superconductivity] URL

Andrej Pustogow, Daniel Dizdarevic, Sebastian Erfort, Olga Iakutkina, Valentino Merkl, Gabriele Untereiner, and Martin Dressel. Tuning Charge Order in (TMTTF)2X by Partial Anion Substitution. Crystals, (11)12:1545, MDPI AG, December 2021. [PUMA: partial-anion-substitution superconductivity tuning-charge-order] URL

O. Iakutkina, L. N. Majer, T. Biesner, E. Uykur, J. A. Schlueter, and M. Dressel. Charge localization in strongly correlated $\kappa\ensuremath-(BEDT\ensuremath-TTF)_2Cu[N(CN)_2]I$ due to inherent disorder. Phys. Rev. B, (104)20:205127, American Physical Society, November 2021. [PUMA: strongly-correlated-organic-materials superconductivity] URL

Wenhao Xing, Chunlan Tang, Naizheng Wang, Chunxiao Li, Ece Uykur, Jieyun Wu, Zheshuai Lin, Jiyong Yao, Wenlong Yin, and Bin Kang. AXHg3P2S8 (A = Rb, Cs; X = Cl, Br): New Excellent Infrared Nonlinear Optical Materials with Mixed-Anion Chalcohalide Groups of Trigonal Planar [HgS2X]3− and Tetrahedral [HgS3X]5−. Advanced Optical Materials, (9)15:2100563, 2021. [PUMA: nonlinear-optical-(NLO)-chalcohalides superconductivity topological-materials] URL

Wenhao Xing, Fei Liang, Chunlan Tang, Ece Uykur, Zheshuai Lin, Jiyong Yao, Wenlong Yin, and Bin Kang. Highly Distorted [HgS4] Motif-Driven Structural Symmetry Degradation and Strengthened Second-Harmonic Generation Response in the Defect Diamond-Like Chalcogenide Hg3P2S8. ACS Applied Materials & Interfaces, (13)31:37331-37338, 2021. [PUMA: superconductivity theoretical-analysis-based-on-density-functional-theory topological-materials] URL

J. Ebad-Allah, S. Rojewski, M. Vöst, G. Eickerling, W. Scherer, E. Uykur, Raman Sankar, L. Varrassi, C. Franchini, K.-H. Ahn, J. Kuness\fi, and C. A. Kuntscher. Pressure-Induced Excitations in the Out-of-Plane Optical Response of the Nodal-Line Semimetal ZrSiS. Phys. Rev. Lett., (127)7:076402, American Physical Society, August 2021. [PUMA: nodal-line-semimetal pressure-induced-exitations superconductivity topological-materials] URL

Sascha Polatkan, and Ece Uykur. Optical Response of Chiral Multifold Semimetal PdGa. (11)2:80, MDPI AG, January 2021. [PUMA: chiral-multifold-semimetal optical-response superconductivity] URL

Alexander Yaresko, and Artem V. Pronin. Low-Energy Optical Conductivity of TaP: Comparison of Theory and Experiment. (11)5:567, MDPI AG, May 2021. [PUMA: low-energy-optical-conductivity superconductivity topological-materials] URL

Artem V. Pronin. Advances in Topological Materials. (11)6:680, MDPI AG, June 2021. [PUMA: Weyl-metacrystal superconductivity topological-materials] URL

Olga Iakutkina, Ece Uykur, Takuya Kobayashi, Atsushi Kawamoto, Martin Dressel, and Yohei Saito. Charge imbalance in λ−(BETS) 2GaCl 4 and their interplay with superconductivity. Phys. Rev. B, (104)4:045108, American Physical Society, July 2021. [PUMA: charge-imbalance superconductivity] URL

Yohei Saito, Anja Löhle, Atsushi Kawamoto, Andrej Pustogow, and Martin Dressel. Pressure-Tuned Superconducting Dome in Chemically-Substituted κ-(BEDT-TTF)2Cu2(CN)3. Crystals, (11)7:817, MDPI AG, July 2021. [PUMA: pressure superconductivity tuned] URL

Björn Miksch, Andrej Pustogow, Mojtaba Javaheri Rahim, Andrey A. Bardin, Kazushi Kanoda, John A. Schlueter, Ralph Hübner, Marc Scheffler, and Martin Dressel. Gapped magnetic ground state in quantum spin liquid candidate κ-(BEDT-TTF)2Cu2(CN)3. Science, (372)6539:276--279, American Association for the Advancement of Science, 2021. [PUMA: magnetic-ordering organic-salts quantum-spin-liquid superconductivity] URL

M. Buzzi, D. Nicoletti, M. Fechner, N. Tancogne-Dejean, M. A. Sentef, A. Georges, T. Biesner, E. Uykur, M. Dressel, A. Henderson, T. Siegrist, J. A. Schlueter, K. Miyagawa, K. Kanoda, M.-S. Nam, A. Ardavan, J. Coulthard, J. Tindall, F. Schlawin, D. Jaksch, and A. Cavalleri. Photomolecular High-Temperature Superconductivity. Phys. Rev. X, (10)3:031028, American Physical Society, August 2020. [PUMA: infrared-spectroscopy molecular-solids superconductivity] URL

Markus Thiemann, Manfred H. Beutel, Martin Dressel, Nicholas R. Lee-Hone, David M. Broun, Evangelos Fillis-Tsirakis, Hans Boschker, Jochen Mannhart, and Marc Scheffler. Single-Gap Superconductivity and Dome of Superfluid Density in Nb-Doped SrTiO3. Phys. Rev. Lett., (120)23:237002, American Physical Society, June 2018. [PUMA: Nb-Doped SrTiO3 superconductivity] URL

M. Dressel. Superconductivity in Low-Dimensional Organic Compounds. Journal of Superconductivity, (13)5:823-828, 2000. [PUMA: compounds organic superconductivity]

M. Dressel, N. Drichko, B. Salameh, J. Thorns, J. Schlueter, and J. Merino. Charge ordering and superconductivity in α-(BEDT-TTF) 2MHg(SCN) 4. J. Phys. IV France 12: 57, (12):57-60, 2002. [PUMA: BEDT-TTF superconductivity]

S. Kaiser, M. Dressel, Y. Sun, A. Greco, J. A. Schlueter, G. L. Gard, and N. Drichko. Bandwidth Tuning Triggers Interplay of Charge Order and Superconductivity in Two-Dimensional Organic Materials. Phys. Rev. Lett., (105)20:206402, American Physical Society, November 2010. [PUMA: charge order superconductivity] URL