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[69] Review article: A. Schönleber:
Structural peculiarities? Aperiodic crystals, modulated phases, composite structures.
Physical Sciences Reviews XX (2023) psr-2018-0140, pp. 1–25.
10.1515/psr-2018-0140
[68] S. Ramakrishnan, S. Matteppanavar, A. Schönleber, B. Patra, B. Singh, A. Thamizhavel, B. Singh, S. Ramakrishnan, S. van Smaalen:
Realization of Z2 topological metal in single–crystalline nickel deficient NiV2Se4.
Annalen der Physik XX (2023) 2200611, pp. 1–8.
10.1002/andp.202200611  OPEN ACCESS 
[67] S. Ramakrishnan, J. Bao, C. Eisele, B. Patra, M. Nohara, B. Bag, L. Noohinejad, M. Tolkiehn, C. Paulmann, A. M. Schaller, T. Rekis, S. R. Kotla, A. Schönleber, A. Thamizhavel, B. Singh, S. Ramakrishnan, S. van Smaalen:
Coupling between Charge Density Wave Ordering and Magnetism in Ho2Ir3Si5.
Chemistry of Materials 35 (2023) 1980–1990.
10.1021/acs.chemmater.2c03297
[66] S. Dey, A. Schönleber, S. van Smaalen, W. Morgenroth, F. K. Larsen:
Incommensurate Phase in Λ–cobalt (III) Sepulchrate Trinitrate Governed by Highly Competitive N–H⋯O and C–H⋯O Hydrogen Bond Networks.
Chemistry – A European Journal 28 (2022) e202104151, pp. 1–8.
10.1002/chem.202104151 OPEN ACCESS
[65] T. Rekis, S. Ramakrishnan, S. R. Kotla, J.-K. Bao, C. Eisele, A. Schönleber, L. Noohinejad, C. Paulmann, M. Tolkiehn, S. van Smaalen:
Une étude cristallographique: superspace description of a commensurate composite cocrystal of 4,4'-dinitrobiphenyl and biphenyl.
CrystEngComm 24 (2022) 512–517.
10.1039/D1CE01223A
[64] S. Ramakrishnan, A. Schönleber, J.-K. Bao, T. Rekis, S. R. Kotla, A. M. Schaller, S. van Smaalen, L. Noohinejad, M. Tolkiehn, C. Paulmann, N. S. Sangeetha, D. Pal, A. Thamizhavel, S. Ramakrishnan:
Modulated crystal structure of the atypical charge density wave state of single-crystal Lu2Ir3Si5.
Physical Review B 104 (2021) 054116, pp. 1–6.
10.1103/PhysRevB.104.054116
[63] T. Rekis, A. Schönleber, L. Noohinejad, M. Tolkiehn, C. Paulmann, S. van Smaalen:
Toward Understanding High-Z' Organic Molecular Crystals through the Superspace Method: The Example of Glycyl-L-valine.
Crystal Growth & Design 21 (2021) 2324–2331.
10.1021/acs.cgd.0c01731
[62] T. Rekis, A. M. Schaller, S. R. Kotla, A. Schönleber, L. Noohinejad, M. Tolkiehn, C. Paulmann, S. van Smaalen:
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate.
IUCrJ 8 (2021) 139–147.
10.1107/S2052252520015912 OPEN ACCESS
[61] S. Ramakrishnan, A. Schönleber, T. Rekis, N. van Well, L. Noohinejad, S. van Smaalen, M. Tolkiehn, C. Paulmann, B. Bag, A. Thamizhavel, D. Pal, S. Ramakrishnan:
Unusual charge density wave transition and absence of magnetic ordering in Er2Ir3Si5.
Physical Review B 101 (2020) 060101(R), pp. 1–6.
10.1103/PhysRevB.101.060101
[60] T. Rekis, A. Schönleber, S. van Smaalen:
On the puzzling case of sodium saccharinate 1.875-hydrate: structure description in (3+1)-dimensional superspace.
Acta Crystallographica B 76 (2020) 18–27.
10.1107/S2052520619014938 OPEN ACCESS
[59] J. Welsch, S. Ramakrishnan, C. Eisele, N. van Well, A. Schönleber, S. van Smaalen, S. Matteppanavar, A. Thamizhavel, M. Tolkiehn, C. Paulmann, S. Ramakrishnan:
Second-order charge-density-wave transition in single crystals of La3Co4Sn13.
Physical Review Materials 3 (2019) 125003, pp. 1–5.
10.1103/PhysRevMaterials.3.125003
[58] C. B. Fischer, S. Körsten, L. M. Rösken, F. Cappel, C. Beresko, G. Ankerhold, A. Schönleber, S. Geimer, D. Ecker, S. Wehner:
Cyanobacterial promoted enrichment of rare earth elements europium, samarium and neodynium and intracellular europium particle formation.
RSC Advances 9 (2019) 32581–32593.
10.1039/c9ra06570a OPEN ACCESS
[57] I. E. Collings, D. M. Vasiukov, C. A. McCammon, L. Dubrovinsky, V. Cerantola, S. Petitgirard, C. B. Hübschle, A. Schönleber, D. Chernyshov, S. van Smaalen, N. Dubrovinskaia:
Local structure of multiferroic iron formates at low temperature and high pressure studied by Mössbauer spectroscopy.
Journal of Physical Chemistry C 123 (2019) 21676–21684.
10.1021/acs.jpcc.9b04749
[56] S. Ramakrishnan, A. Schönleber, C. Hübschle, C. Eisele, A. Schaller, T. Rekis, Ng. H. A. Bui, F. Feulner, S. van Smaalen, B. Bag, Sr. Ramakrishnan, M. Tolkiehn, C. Paulmann:
Charge-density-wave and lock-in transitions of CuV2S4.
Physical Review B 99 (2019) 195140, pp. 1–11.
10.1103/PhysRevB.99.195140
[55] M. Ekholm, A. Schönleber, S. van Smaalen:
The role of magnetic order in VOCl.
Journal of Physics: Condensed Matter 31 (2019) 325502, pp. 1–6.
10.1088/1361-648X/ab1eff OPEN ACCESS
[54] S. Matteppanavar, N. H. A. Bui, S. Ramakrishnan, M. Vagadia, A. Thamizhavel, A. Paul, U. V. Waghmare, A. Schönleber, S. van Smaalen:
Unusual electronic properties of a low-temperature phase of Ag4SSe.
Physical Review Materials 2 (2018) 113606, pp. 1–7.
10.1103/PhysRevMaterials.2.113606
[53] T. Meier, T. P. Gujar, A. Schönleber, S. Olthof, K. Meerholz, S. van Smaalen, F. Panzer, M. Thelakkat, A. Köhler:
Impact of excess PbI2 on the structure and the temperature dependent optical properties of methylammonium lead iodide perovskites.
Journal of Materials Chemistry C 6 (2018) 7512–7519.
10.1039/c8tc02237b
[52] S. Dey, A. Schönleber, S.Mondal, Sk. I. Ali, S. van Smaalen:
Role of steric hindrance in the crystal packing of Z’ = 4 superstructure of trimethyltin hydroxide.
Crystal Growth & Design 18 (2018) 1394–1400.
10.1021/acs.cgd.7b01295
[51] T. P. Gujar, T. Unger, A. Schönleber, M. Fried, F. Panzer, S. van Smaalen, A. Köhler, M. Thelakkat:
The role of PbI2 on CH3NH3PbI3 perovskite stability, solar cell parameters and device degradation.
Physical Chemistry Chemical Physics 20 (2018) 605–614.
10.1039/C7CP04749E
[50] A. S. Rochert, L. M. Rösken, C. B. Fischer, A. Schönleber, D. Ecker, S. van Smaalen, S. Geimer, S. Wehner:
Bioselective synthesis of gold nanoparticles from diluted mixed Au, Ir, and Rh ion solution by Anabaena cylindrica.
Journal of Nanoparticle Research 19 (2017) 355, pp. 1–5.
10.1007/s11051-017-4039-8
[49] L. Noohinejad, S. van Smaalen, V. Petricek, A. Schönleber:
Incommensurately modulated structure of morpholinium tetrafluoroborate and configurational versus chemical entropies at the incommensurate and lock-in phase transitions.
Acta Crystallographica B 73 (2017) 836–843.
10.1107/S2052520617009398
[48] S. Dey, A. Schönleber, S. Mondal, S. van Smaalen:
Superspace description of trimethyltin hydroxide at T = 100 K.
Zeitschrift für Kristallographie 231 (2016) 427–434.
10.1515/zkri-2016-1952
[47] S. Dey, A. Schönleber, S. Mondal, S. J. Prathapa, S. van Smaalen, F. K. Larsen:
The Z' = 12 superstructure of Λ–cobalt(III) sepulchrate trinitrate governed by C‒H···O hydrogen bonds.
Acta Crystallographica B 72 (2016) 372–380.
10.1107/S2052520616005503 OPEN ACCESS
[46] L. Rösken, F. Cappel, S. Körsten, C. B. Fischer, A. Schönleber, S. van Smaalen, S. Geimer, C. Beresko, G. Ankerhold, S. Wehner:
Time–dependent growth of crystalline Au0–nanoparticles in cyanobacteria as self–reproducing bioreactors: 2. Anabaena cylindrica.
Beilstein Journal of Nanotechnology 7 (2016) 312–327.
10.3762/bjnano.7.30
[45] L. Noohinejad, S. Mondal, Sk I. Ali, S. Dey, S. van Smaalen, A. Schönleber:
Resonance–stabilized partial proton transfer in hydrogen bonds of incommensurate phenazine–chloranilic acid.
Acta Crystallographica B 71 (2015) 228–234.
10.1107/S2052520615004084 OPEN ACCESS
[44] L. Noohinejad, S. Mondal, A. Wölfel, Sk I. Ali, A. Schönleber, S. van Smaalen:
Ferroelectricity of Phenazine–Chloranilic Acid at T = 100 K.
Journal of Chemical Crystallography 44 (2014) 387–393.
10.1007/s10870-014-0527-1
[43] A. Schönleber, S. van Smaalen, H.–C. Weiss, A. J. Kesel:
N–H⋯F hydrogen bonds in the incommensurately modulated crystal structure of adamantan–1–ammonium 4–fluorobenzoate.
Acta Crystallographica B 70 (2014) 652–659.
10.1107/s2052520614007707
[42] J. Zhang, A.Wölfel, M. Bykov, A. Schönleber, S. van Smaalen, R. K. Kremer, H. L. Williamson:
Transformation between spin–Peierls and incommensurate fluctuating phases of Sc–doped TiOCl.
Physical Review B 90 (2014) 014415, pp. 1–6.
10.1103/PhysRevB.90.014415
[41] L. M. Rösken, S. Körsten, C. B. Fischer, A. Schönleber, S. van Smaalen, S. Geimer, S.Wehner:
Time–dependent growth of crystalline Au0–nanoparticles in cyanobacteria as self–reproducing bioreactors: 1. Anabaena sp.
Journal of Nanoparticle Research 16 (2014) 2370, pp. 1–14.
10.1007/s11051-014-2370-x
[40] A. J. Kesel, H.–C. Weiss, A. Schönleber, C. W. Day, D. L. Barnard, M. A. Detorio, R. F. Schinazi:
Antiviral agents derived from novel 1–adamantyl singlet nitrenes.
Antiviral Chemistry & Chemotherapy 23 (2013) 113–128.
10.3851/IMP2485
[39] M. Bykov, J. Zhang, A. Schönleber, A. Wölfel, Sk I. Ali, S. van Smaalen, R. Glaum, H.–J. Koo, M.–H. Whangbo, P. G. Reuvekamp, J. M. Law, C. Hoch, R. K. Kremer:
Spin–Peierls distortions in TiPO4.
Physical Review B 88 (2013) 184420, pp. 1–5.
10.1103/PhysRevB.88.184420
[38] J. Henn, A. Schönleber:
More about residual values.
Acta Crystallographica A 69 (2013) 549–558.
10.1107/S0108767313022514
[37] J. Angelkort, A. Senyshyn, A. Schönleber, S. van Smaalen:
Temperature–dependent neutron diffraction on TiI3.
Zeitschrift für Kristallographie 226 (2011) 640–645.
10.1524/zkri.2011.1370
[36] Review article: A. Schönleber:
Organic molecular compounds with modulated crystal structures.
Zeitschrift für Kristallographie 226 (2011) 499–517.
10.1524/zkri.2011.1372 OPEN ACCESS
[35] S. Mondal, S. van Smaalen, A. Schönleber, Y. Filinchuk, D. Chernyshov, S. I. Simak, A. S. Mikhaylushkin, I. A. Abrikosov, E. Zarechnaya, L. Dubrovinsky, N. Dubrovinskaia:
Electron–deficient and polycenter bonds in high–pressure γ–B28 phase of boron.
Physical Review Letter 106 (2011) 215502, pp. 1–4.
10.1103/PhysRevLett.106.215502
[34] L. Li, A. Wölfel, A. Schönleber, S. Mondal, A. M. M. Schreurs, L. M. J. Kroon–Batenburg, S. van Smaalen:
Modulated anharmonic ADPs are intrinsic to aperiodic crystals: a case study on incommensurate Rb2ZnCl4.
Acta Crystallographica B 67 (2011) 205–217.
10.1107/S0108768111013814 OPEN ACCESS
[33] K. Friese, A. Grzechnik, V. Petrícek, A. Schönleber, S. van Smaalen and W. Morgenroth:
Modulated structure of Nepheline.
Acta Crystallographica B 67 (2011) 18–29.
10.1107/S0108768110050822
[32] J. Ebad–Allah, A. Schönleber, S. van Smaalen, M. Hanfland, M. Klemm, S. Horn, S. Glawion, M. Sing, R. Claessen, C. A. Kuntscher:
Two pressure–induced structural phase transitions in TiOCl.
Physical Review B 82 (2010) 134117, pp. 1–5.
10.1103/PhysRevB.82.134117
[31] L. Li, A. Schönleber, S. van Smaalen:
Structure of incommensurately modulated chromium pyrophosphate studied by Maximum Entropy Method (MEM).
Journal of Physics: Conference Series 226 (2010) 012012, pp. 1–6.
10.1088/1742–6596/226/1/012012
[30] A. Schönleber, S. van Smaalen, F. K. Larsen:
Orientational disorder in Λ–cobalt(III) sepulchrate trinitrate.
Acta Crystallographica C 66 (2010) m107–m109.
10.1107/S0108270110005755
[29] L. Li, A. Schönleber, S. van Smaalen:
Modulation functions of incommensurately modulated Cr2P2O7 studied by the maximum entropy method (MEM).
Acta Crystallographica B 66 (2010) 130–140.
10.1107/S0108768110003393
[28] C. A. Kuntscher, J. Ebad–Allah, A. Pashkin, S. Frank, M. Klemm, S. Horn, A. Schönleber, S. van Smaalen, M. Hanfland, S. Glawion, M. Sing, R. Claessen:
Filling of the Mott–Hubbard gap in the oxyhalides TiOCl and TiOBr induced by external pressure.
High Pressure Research 29 (2009) 509–513.
10.1080/08957950903386334
[27] J. Angelkort, A. Wölfel, A. Schönleber, S. van Smaalen, R. K. Kremer:
Observation of strong magnetoelastic coupling in a first–order phase transition of CrOCl.
Physical Review B 80 (2009) 144416, pp. 1–6.
10.1103/PhysRevB.80.144416
[26] A. Schönleber, J. Angelkort, S. van Smaalen, L. Palatinus, A. Senyshyn, W. Morgenroth:
Phase transition, crystal structure and magnetic order in VOCl.
Physical Review B 80 (2009) 064426, pp. 1–7.
10.1103/PhysRevB.80.064426
[25] Feature article: T. Wagner, A. Schönleber:
A non–mathematical introduction to the superspace description of modulated structures.
Acta Crystallographica B 65 (2009) 249–268.
10.1107/S0108768109015614 OPEN ACCESS
[24] J. Angelkort, A. Schönleber, S. van Smaalen:
Low– and high–temperature crystal structures of TiI3.
Journal of Solid State Chemistry 182 (2009) 525–531.
10.1016/j.jssc.2008.11.028
[23] E. Castillo–Martinez, A. Schönleber, S. van Smaalen, A. M. Arévalo–López, M. A. Alario–Franco:
Structure and Microstructure of the High Pressure Synthesised Misfit Layer Compound [Sr2O2][CrO2]1.85.
Journal of Solid State Chemistry 181 (2008) 1840–1847.
10.1016/j.jssc.2008.03.033
[22] C. A. Kuntscher, A. Pashkin, H. Hoffmann, S. Frank, M. Klemm, S. Horn, A. Schönleber, S. van Smaalen, M. Hanfland, S. Glawion, M. Sing, R. Claessen:
Mott–Hubbard gap closure and structural phase transition in the oxyhalides TiOBr and TiOCl under pressure.
Physical Review B 78 (2008) 035106, pp. 1–10.
10.1103/PhysRevB.78.035106
[21] A. Schönleber, G. Shcheka, S. van Smaalen:
Normal–to–incommensurate phase transition in the spin–Peierls compound TiOCl: An X–ray diffraction study.
Physical Review B 77 (2008) 094117, pp. 1–5.
10.1103/PhysRevB.77.094117
[20] C. A. Kuntscher, S. Frank, A. Pashkin, H. Hoffmann, A. Schönleber, S. van Smaalen, M. Hanfland, S. Glawion, M. Klemm, M. Sing, S. Horn, R. Claessen:
Pressure–induced metallization and structural phase transition of the Mott–Hubbard insulator TiOBr.
Physical Review B 76 (2007) 241101(R), pp. 1–4.
10.1103/PhysRevB.76.241101
[19] J. Guevarra, A. Schönleber, S. van Smaalen, F. Lichtenberg:
Superspace description of the crystal structures of Can(Nb,Ti)nO3n+2 (n = 5 and 6).
Acta Crystallographica B 63 (2007) 183–189.
10.1107/S0108768107002340
[18] V. V. Grinevitch, S. A. Kuznetsov, A. A. Arakcheeva, T. V. Olyunina, A. Schönleber, M. Gaune–Escard:
Electrode and chemical reactions during electrodeposition of tantalum products in CsCl melt.
Electrochimica Acta 51 (2006) 6563–6571.
10.1016/j.electacta.2006.03.107
[17] A. Schönleber, S. van Smaalen, L. Palatinus:
Structure of the incommensurate phase of the quantum magnet TiOCl.
Physical Review B 73 (2006) 214410, pp. 1–4.
10.1103/PhysRevB.73.214410
[16] A. Schönleber, F. J. Zúñiga, J. M. Perez–Mato, J. Darriet, H.–C. zur Loye:
Description of Ba1+xNixRh1–xO3 with x = 0.1170 in superspace: modulated composite versus modulated–layer structure.
Acta Crystallographica B 62 (2006) 197–204.
10.1107/S0108768105039212
[15] S. van Smaalen, L. Palatinus, A. Schönleber:
Incommensurate interactions and nonconventional spin–Peierls transition in TiOBr.
Physical Review B 72 (2005) 020105(R), pp. 1–4.
10.1103/PhysRevB.72.020105
[14] L. Palatinus, A. Schönleber, S. van Smaalen:
The twofold superstructure of titanium(III) oxybromide at T = 17.5 K.
Acta Crystallographica C 61 (2005) i47–i48.
10.1107/S010827010500867X
[13] A. Schönleber, G. Chapuis:
The structure of diaqua (15–crown–5) copper (II) dinitrate described in (3+1)–dimensional superspace.
Ferroelectrics 305 (2004) 99–102.
10.1080/00150190490462487
[12] N. B. Bolotina, R. K. Rastsveteva, G. Chapuis, A. Schönleber, A. N. Sapozhnikov, A. A. Kashaev:
On the symmetry of optically isotropic modulated Lazurites from the Baikal region.
Ferroelectrics 305 (2004) 95–98.
10.1080/00150190490462478
[11] A. Schönleber, G. Chapuis:
Quininium (R)–mandelate, a structure with large Z' described as an incommensurately modulated structure in (3+1)–dimensional superspace.
Acta Crystallographica B 60 (2004) 108–120.
10.1107/S0108768103027605
[10] N. B. Bolotina, R. K. Rastsvetaeva, A. N. Sapozhnikov, A. A.Kashaev, A. Schönleber, G. Chapuis:
Incommensurately modulated structure of isotropic Lazurite as a product of twinning of two–dimensionally modulated domains.
Crystallography Reports 48 (2003) 721–727.
10.1134/1.1612592
[9] A. Schönleber, P. Pattison, G. Chapuis:
The (3+1)–dimensional superspace description of the commensurately modulated structure of p–chlorobenzamide (α–form) and its relation to the γ–form.
Zeitschrift für Kristallographie 218 (2003) 507–513.
10.1524/zkri.218.7.507.20713
[8] N. B. Bolotina, R. K. Rastsvetaeva, A. N. Sapozhnikov, A. A. Kashaev, A. Schönleber, G. Chapuis:
Three–dimensionally modulated incommensurate crystal structure of Lazurite from the Baikal region.
Crystallography Reports 48 (2003) 8–11.
10.1134/1.1541734
[7] A. Arakcheeva, G. Chapuis, V. Petricek, M. Dusek, A. Schönleber:
New incommensurate structure of K3In(PO4)2.
Acta Crystallographica B 59 (2003) 17–27.
10.1107/S0108768102021195
[6] V. B. Rybakov, E. V. Babaev, T. A. Smirnova, A. A. Tsisevich, A. V. Arakcheeva, A. Schönleber:
X–ray mapping in heterocyclic design. IX. X–ray study of conjugated aminodienes.
Crystallography Reports 47 (2002) 973–978.
10.1134/1.1523544
[5] R. K. Rastsvetaeva, N. B. Bolotina, A. N. Sapozhnikov, A. A. Kashaev, A. Schönleber, G. Chapuis:
Average structure of cubic Lazurite with a three–dimensional incommensurate modulation.
Crystallography Reports 47 (2002) 404–407.
10.1134/1.1481924
[4] A. Schönleber, M. Meyer, G. Chapuis:
NADA – a computer program for the simultaneous refinement of orientation matrix and modulation vector(s).
Journal of Applied Crystallography 34 (2001) 777–779.
10.1107/S0021889801014182
[3] M. Gardon, A. Schönleber, G. Chapuis, M. Hostettler, M. Bonin:
The lock–in phase in the urotropine–sebacic acid system.
Acta Crystallographica C 57 (2001) 936–938.
10.1107/S0108270101007028
[2] G. Chapuis, A. Schönleber:
Crystallography of modulated structures in superspace.
Chimia 55 (2001) 523–527.
10.2533/chimia.2001.523 OPEN ACCESS
[1] A. Schönleber, G. Chapuis:
The superspace description of the incommensurately modulated structure of quininium (R)–mandelate.
Ferroelectrics 250 (2001) 91–94.
10.1080/00150190108225040
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