Research Group of Dr. Schnick

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<h3>Research Group, Prof. Dr. Wolfgang Schnick, Chemistry Department of LMU</h3> <h3>Robin Niklaus</h3><div><br></div><h3>Publishing: </h3><h3><br></h3><h3>1. &nbsp;Li12P3N9 with Non-Condensed [P3N9]12−-Rings and its High-Pressure Polymorph Li4PN3 </h3><h3>with Infinite Chains of PN4-Tetrahedra</h3><h3>E.-M. Bertschler, R. Niklaus, W. Schnick</h3><h3>Chem. Eur. J. 2017 (accepted)</h3><h3><br></h3><h3>2. The Crystal Structure of Nitridomagnesogermanate Ba[Mg3GeN4]:Eu2+</h3><h3>and Theoretical Calculations of Its Electronic Properties</h3><h3>C. Poesl, R. Niklaus, W. Schnick</h3><h3>Eur. J. Inorg. Chem. 2017, 2422</h3><h3><br></h3><h3>3. First-principle and Experimental Characterization of the Electronic Properties</h3><h3>of CaGaSiN3 and CaAlSiN3: The Impact of Chemical Disorder</h3><h3>R. Niklaus, J. Minár, J. Häusler, W. Schnick</h3><h3>Phys. Chem. Chem. Phys. 2017, 19, 9292</h3><h3><br></h3><h3>4. Ammonothermal Synthesis of Novel Nitrides: Case Study on CaGaSiN3</h3><h3>J. Häusler, L. Neudert, M. Mallmann, R. Niklaus, A.-C.L. Kimmel, N.S.A. Alt, E. Schlücker, </h3><h3>O. Oeckler, W. Schnick</h3><h3>Chem. Eur. J. 2017, 23, 2583</h3><h3><br></h3><h3>5. High-pressure Synthesis of Melilite-Type Rare-Earth Nitridophosphates RE2P3N7 </h3><h3>and a Ba2Cu[Si2O7]-type Polymorph</h3><h3>S.D. Kloß, N. Weidmann, R. Niklaus, W. Schnick</h3><h3>Inorg. Chem. 2016, 55, 9400</h3><h3><br></h3><h3>6. A High-Pressure Polymorph of Phosphorus Oxonitride with the Coesite Structure</h3><h3>D. Baumann, R. Niklaus, W. Schnick</h3><h3>Angew. Chem. 2015, 127, 4463; Angew. Chem. Int. Ed. 2015, 54, 4388</h3> <h3>Philipps Strobel</h3><div><br></div><h3>Publishing: </h3><div><br></div><h3>1. &nbsp;Designing Luminescent Materials and Band Gaps: A Soft X-ray Spectroscopy and </h3><h3>Density Functional Theory Study of Li2Ca2[Mg2Si2N6]:Eu2+ and Ba[Li2(Al2Si2)N6]:Eu2+</h3><h3>T.M. Tolhurst, P. Strobel, P.J. Schmidt, W. Schnick, A. Moewes</h3><h3>J. Phys. Chem. C. 2017 (accepted) </h3><h3><br></h3><h3>Luminescence of the Narrow-band Red Emitting Nitridomagnesosilicate</h3><h3>Li2(Ca1-xSrx)2[Mg2Si2N6]:Eu2+ (x = 0-0.06)</h3><h3>P. Strobel, V. Weiler, C. Hecht, P.J. Schmidt, W. Schnick</h3><h3>Chem. Mater. 2017, 29, 1377</h3><h3><br></h3><h3>2. LED Phosphor Comprising Bow-tie Shaped A2N6 Building Blocks</h3><h3>P.J. Schmidt, P.J. Strobel, S.F. Schmiechen, C.S. Hecht, V. Weiler, W. Schnick</h3><h3>PCT Int. Appl. 2016, WO 2016075021, A1</h3><h3>Koninklijke Philips NV, Ludwig-Maximilians-Universität München</h3><h3><br></h3><h3>3. &nbsp;Luminescence of the Narrow-band Red Emitting Nitridomagnesosilicate</h3><h3>Li2(Ca1-xSrx)2[Mg2Si2N6]:Eu2+ (x = 0-0.06)</h3><h3>P. Strobel, V. Weiler, C. Hecht, P.J. Schmidt, W. Schnick</h3><h3>Chem. Mater. 2017, 29, 1377</h3><h3><br></h3><h3><br></h3><h3>4. Narrow-Band Green Emitting Nitridolithoalumosilicate Ba[Li2(Al2Si2)N6]:Eu2+ with</h3><h3>Framework Topology whj for LED/LCD-Backlighting Applications</h3><h3>P. Strobel, S. Schmiechen, M. Siegert, A. Tücks, P.J. Schmidt, W. Schnick</h3><h3>Chem. Mater. 2015, 27, 6109</h3><h3><br></h3><h3>5. Nitridomagnesosilicate Ba[Mg3SiN4]:Eu2+ and Structure-Property Relations </h3><h3>of Similar Narrow-Band Red Nitride Phosphors</h3><h3>S. Schmiechen, P. Strobel, C. Hecht, T. Reith, M. Siegert, P.J. Schmidt, P. Huppertz, </h3><h3>D. Wiechert, W. Schnick</h3><h3>Chem. Mater. 2015, 27, 1780</h3><h3><br></h3><h3><br></h3>

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Schnick