Dr. Dennis Wiedemann
Dr. Dennis Wiedemann
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Journal article
Software
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Date
2023
2022
2021
2020
2019
2018
2017
2016
2015
2014
2013
2012
2011
2010
2009
S. Omar
,
E. Irran
,
Dr. Dennis Wiedemann
,
D. Baabe
,
A. Grohmann
.
Sterically crowded di-indazolyl-pyridines: Iron(II) complexation studies
.
Z. Naturforsch., B: J. Chem. Sci.
2023
,
78
, 223–244.
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DOI
Dr. Dennis Wiedemann
.
CalcOPP: a program for the calculation of one-particle potentials (OPPs)
.
Z. Kristallogr. – Cryst. Mater.
2022
,
237
, 85–92.
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DOI
A. Ghosh
,
W. B. Tolman
.
Out in Inorganic Chemistry: A Celebration of LGBTQIAPN+ Inorganic Chemists
.
Inorg. Chem.
2022
,
61
, 5435–5441.
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DOI
Read …
Dr. Dennis Wiedemann
,
J. Breternitz
,
D. W. Paley
,
S. Schorr
.
Hybrid Perovskite at Full Tilt: Structure and Symmetry Relations of the Incommensurately Modulated Phase of Methylammonium Lead Bromide, MAPbBr₃
.
J. Phys. Chem. Lett.
2021
,
12
, 2358–2362.
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DOI
Supporting Information
M. Rohloff
,
B. Anke
,
Dr. Dennis Wiedemann
,
A. C. Ulpe
,
O. Kasian
,
C. Scheu
,
T. Bredow
,
M. Lerch
,
A. Fischer
.
Synthesis and Doping Strategies to Improve the Photoelectrochemical Water Oxidation Activity of BiVO₄ Photoanodes
.
Z. Phys. Chem.
2020
,
234
, 655–682.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
E. M. Heppke
,
A. Franz
.
And Yet It Moves: A High-Temperature Neutron Diffraction Study of Ion Diffusion in the Inverse Perovskites BaLi𝘟₃ (𝘟 = F, H, D)
.
Eur. J. Inorg. Chem.
2019
, 5085–5088.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
E. Suard
,
M. Lerch
.
Structural complexities and sodium-ion diffusion in the intercalates NaₓTiS₂: move it, change it, re-diffract it
.
RSC Adv.
2019
,
9
, 27780–27788.
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DOI
Supporting Information
CIF
Dr. Dennis Wiedemann
,
R.-D. Kulko
,
A. Grohmann
.
Synthesis, characterization, and crystal structure of aquabis(4,4′-dimethoxy-2,2′-bipyridine)[μ-(2𝘙,3𝘙)-tartrato(4−)]dicopper(II) octahydrate
.
Acta Crystallogr., Sect. E: Crystallogr. Commun.
2019
,
75
, 972–975.
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DOI
CIF
Dr. Dennis Wiedemann
.
CᴀʟᴄOPP: A Program for the Calculation of One-Particle Potentials
.
CalcOPP
, A Program for the Calculation of One-Particle Potentials
, Technische Universität Berlin, Berlin (Germany),
2019
.
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Code
DOI
Journal Article
Dr. Dennis Wiedemann
,
S. Orthmann
,
M. J. Mühlbauer
,
M. Lerch
.
Commensurate Nb₂Zr₅O₁₅: Accessible Within the Field Nb₂ZrₓO₂ₓ₊₅ After All
.
ChemistryOpen
2019
,
8
, 447–450.
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DOI
Supporting Information
CIF
Dr. Dennis Wiedemann
,
F. Meutzner
,
O. Fabelo
,
S. Ganschow
.
The inverse perovskite BaLiF₃: single-crystal neutron diffraction and analyses of potential ion pathways
.
Acta Crystallogr., Sect. B: Struct. Sci., Cryst. Eng. Mater.
2018
,
74
, 643–650.
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DOI
Supporting Information
CIF
Dr. Dennis Wiedemann
,
T. Lüdtke
,
L. Palatinus
,
E. Willinger
,
M. G. Willinger
,
M. J. Mühlbauer
,
M. Lerch
.
At the Gates: The Tantalum-Rich Phase Hf₃Ta₂O₁₁ and its Commensurately Modulated Structure
.
Inorg. Chem.
2018
,
57
, 14435–14442.
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DOI
Supporting Information
P. Stock
,
Dr. Dennis Wiedemann
,
H. Petzold
,
G. Hörner
.
Structural Dynamics of Spin Crossover in Iron(II) Complexes with Extended-Tripod Ligands
.
Inorganics
2017
,
5
, 60.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
J. Kohl
.
Invariom-model refinement and Hirshfeld surface analysis of well-ordered solvent-free dibenzo-21-crown-7
.
Acta Crystallogr., Sect. C: Struct. Chem.
2017
,
73
, 654–659.
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DOI
Supporting Information
CIF
Dr. Dennis Wiedemann
,
M. M. Islam
,
T. Bredow
,
M. Lerch
.
Diffusion Pathways and Activation Energies in Crystalline Lithium-Ion Conductors
.
Z. Phys. Chem.
2017
,
231
, 1279–1302.
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DOI
T. Lüdtke
,
Dr. Dennis Wiedemann
,
I. Efthimiopoulos
,
N. Becker
,
S. Seidel
,
O. Janka
,
R. Pöttgen
,
R. Dronskowski
,
M. Koch-Müller
,
M. Lerch
.
HP-MoO₂: A High-Pressure Polymorph of Molybdenum Dioxide
.
Inorg. Chem.
2017
,
56
, 2321–2327.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
S. Nakhal
,
A. Franz
,
M. Lerch
.
Lithium diffusion pathways in metastable ramsdellite-like Li₂Ti₃O₇ from high-temperature neutron diffraction
.
Solid State Ionics
2016
,
293
, 37–43.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
M. M. Islam
,
S. Nakhal
,
A. Senyshyn
,
T. Bredow
,
M. Lerch
.
Lithium Diffusion Pathways in 3R-LiₓTiS₂: A Combined Neutron Diffraction and Computational Study
.
J. Phys. Chem. C
2015
,
119
, 11370–11381.
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DOI
Supporting Information
S. Nakhal
,
Dr. Dennis Wiedemann
,
B. Stanje
,
O. Dolotko
,
M. Wilkening
,
M. Lerch
.
LiBi₃S₅—A lithium bismuth sulfide with strong cation disorder
.
J. Solid State Chem.
2016
,
238
, 60–67.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
S. Indris
,
M. Meven
,
B. Pedersen
,
H. Boysen
,
R. Uecker
,
P. Heitjans
,
M. Lerch
.
Single-crystal neutron diffraction on γ-LiAlO₂: structure determination and estimation of lithium diffusion pathway
.
Z. Krist. – Cryst. Mater.
2016
,
231
, 189–193.
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DOI
Dr. Dennis Wiedemann
,
S. Nakhal
,
J. Rahn
,
E. Witt
,
M. M. Islam
,
S. Zander
,
P. Heitjans
,
H. Schmidt
,
T. Bredow
,
M. Wilkening
,
M. Lerch
.
Unravelling Ultraslow Lithium-Ion Diffusion in γ-LiAlO₂: Experiments with Tracers, Neutrons, and Charge Carriers
.
Chem. Mater.
2016
,
28
, 915–924.
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DOI
Supporting Information
N. Kroll
,
K. Theilacker
,
M. Schoknecht
,
D. Baabe
,
Dr. Dennis Wiedemann
,
M. Kaupp
,
A. Grohmann
,
G. Hörner
.
Controlled ligand distortion and its consequences for structure, symmetry, conformation and spin-state preferences of iron(II) complexes
.
Dalton Trans.
2015
,
44
, 19232–19247.
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DOI
Supporting Information
CIF
P. Stock
,
N. Spintig
,
J. Scholz
,
J. D. Epping
,
C. Oelsner
,
Dr. Dennis Wiedemann
,
A. Grohmann
,
G. Hörner
.
Spin-state dynamics of a photochromic iron(II) complex and its immobilization on oxide surfaces via phenol anchors
.
J. Coord. Chem.
2015
,
68
, 3099–3115.
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DOI
Supporting Information
J. Kohl
,
Dr. Dennis Wiedemann
,
S. I. Troyanov
,
E. Palamidis
,
M. Lerch
.
Ternary transition-metal fluoride precursors for the fluorolytic sol–gel route: new insights into speciation and decomposition
.
Dalton Trans.
2015
,
44
, 13272–13281.
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DOI
CIF
Dr. Dennis Wiedemann
,
S. Nakhal
,
A. Senyshyn
,
T. Bredow
,
M. Lerch
.
The High-Temperature Transformation from 1T- to 3R-LiₓTiS₂ (𝘹 = 0.7, 0.9) as Observed 𝘪𝘯 𝘴𝘪𝘵𝘶 with Neutron Powder Diffraction
.
Z. Phys. Chem.
2015
,
28
, 915–924.
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DOI
P. Stock
,
A. Erbe
,
M. Buck
,
Dr. Dennis Wiedemann
,
H. Ménard
,
G. Hörner
,
A. Grohmann
.
Thiocyanate Anchors for Salt-like Iron(II) Complexes on Au(111): Promises and Caveats
.
Z. Naturforsch., B: J. Chem. Sci.
2014
,
69
, 1164–1180.
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DOI
Supporting Information
Dr. Dennis Wiedemann
,
A. Grohmann
.
3d- and 4d-Metal(II) Complexes of a Tris(pyridyl)ethane-Derived N₄ Ligand – A Structural Study and Reactivity Remarks
.
Z. Anorg. Allg. Chem.
2014
,
640
, 1632–1640.
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DOI
Dr. Dennis Wiedemann
,
A. Grohmann
.
Bulk spin-crossover in the complex [FeL(NCS)₂] of a tris(pyridyl)ethane-derived N₄-ligand—a temperature-dependent crystallographic study
.
Dalton Trans.
2014
,
43
, 2406–2417.
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DOI
Supporting Information
CIF
J. Kohl
,
Dr. Dennis Wiedemann
.
(𝘖𝘊-6-13)-Difluoridooxidobis(propan-2-ol)(propan-2-olato)vanadium(V)
.
Acta Crystallogr., Sect. C: Cryst. Struct. Commun.
2013
,
69
, 1482–1484.
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DOI
CIF
Dr. Dennis Wiedemann
,
E. Świętek
,
W. Macyk
,
A. Grohmann
.
Copper(I) and Iron(II) Complexes of a Novel Tris(pyridyl)ethane-Derived N₄ Ligand: Aspects of Redox Behaviour and Bioinorganic Physicochemistry
.
Z. Anorg. Allg. Chem.
2013
,
639
, 1483–1490.
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DOI
Supporting Information
Dr. Dennis Wiedemann
.
Make One of Naught—Switchable Complexes of Novel Pyridine-Based Podands
.
PhD thesis
, Technische Universität Berlin (Germany)
2013
.
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DOI
M. Schmidt
,
Dr. Dennis Wiedemann
,
B. Moubaraki
,
N. F. Chilton
,
K. S. Murray
,
K. R. Vignesh
,
G. Rajaraman
,
A. Grohmann
.
Iron(II) Complexes of Two Amine/Imine N₅ Chelate Ligands Containing a 1,4-Diazepane Core – To Crossover or Not To Crossover
.
Eur. J. Inorg. Chem.
2013
, 958–967.
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DOI
Supporting Information
M. Bernien
,
Dr. Dennis Wiedemann
,
C. F. Hermanns
,
A. Krüger
,
D. Rolf
,
W. Kroener
,
P. Müller
,
A. Grohmann
,
W. Kuch
.
Spin Crossover in a Vacuum-Deposited Submonolayer of a Molecular Iron(II) Complex
.
J. Phys. Chem. Lett.
2012
,
3
, 3431–3434.
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DOI
Supporting Information
J. Kohl
,
Dr. Dennis Wiedemann
,
S. Nakhal
,
P. Bottke
,
N. Ferro
,
T. Bredow
,
E. Kemnitz
,
M. Wilkening
,
P. Heitjans
,
M. Lerch
.
Synthesis of ternary transition metal fluorides Li₃MF₆ 𝘷𝘪𝘢 a sol–gel route as candidates for cathode materials in lithium-ion batteries
.
J. Mater. Chem.
2012
,
22
, 15819–15827.
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CIF
A. Jozwiuk
,
E. A. Ünal
,
S. Leopold
,
J. P. Boyd
,
M. Haryono
,
N. Kurowski
,
F. Velazquez Escobar
,
P. Hildebrandt
,
J. Lach
,
F. W. Heinemann
,
Dr. Dennis Wiedemann
,
E. Irran
,
A. Grohmann
.
Copper Complexes of “Superpodal” Amine Ligands and Reactivity Studies towards Dioxygen
.
Eur. J. Inorg. Chem.
2012
, 3000–3013.
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DOI
E. A. Ünal
,
Dr. Dennis Wiedemann
,
J. Seiffert
,
J. P. Boyd
,
E. Irran
,
A. Grohmann
.
Copper Complexes of “Superpodal” Amine Ligands and Reactivity Studies towards Dioxygen
.
Tetrahedron Lett.
2012
,
53
, 54–55.
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DOI
M. Schmidt
,
Dr. Dennis Wiedemann
,
A. Grohmann
.
First-row transition metal complexes of a novel pentadentate amine/imine ligand containing a hexahydropyrimidine core
.
Inorg. Chim. Acta
2011
,
374
, 514–520.
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DOI
S.-A. Gentschow
,
S. W. Kohl
,
W. Bauer
,
F. W. Heinemann
,
Dr. Dennis Wiedemann
,
A. Grohmann
.
Bond Activation in Iron(II) and Nickel(II) Complexes of Polypodal Phosphanes
.
Z. Naturforsch., B: J. Chem. Sci.
2010
,
65
, 238–250.
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Dr. Dennis Wiedemann
,
A. Grohmann
.
“… and honour their art!” – Evaluation of Historical and New Routes to 1,5-Dihydroxy-6-oxo-1,6- dihydropyridine-2-carboxylic Acid and 1,3-Dihydroxy-2-oxo-3-pyrroline-4-carboxylic Acid
.
Z. Naturforsch., B: J. Chem. Sci.
2009
,
64
, 1276–1288.
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DOI
Dr. Dennis Wiedemann
,
M. T. Gamer
,
P. W. Roesky
.
Substituted Bisphosphanylamines as Ligands in Gold(I) Chemistry – Synthesis and Structures
.
Z. Anorg. Allg. Chem.
2009
,
635
, 125–129.
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