Deutsch Intern
Lehrstuhl für Chemische Technologie der Materialsynthese

Prof. Dr. Peer Löbmann

Prof. Dr. Peer Löbmann

Kontakt

Fraunhofer-Institut für Silicatforschung
Neunerplatz 2
97082 Würzburg

Tel.: +49-(0)931-4100-404
peer.loebmann@isc.fraunhofer.de

 

Hochschulausbildung

11/1988 - 03/1994Chemiestudium an der Julius-Maximilians-Universität Würzburg
04/1994 - 01/1995Diplomarbeit "Aerogele im System Bleititanat"
06/1995 - 06/1998Dissertation "Herstellung und Charakterisierung von hochporösen Materialien im System Bleititanat und Bleizirkonattitanat"
10/1999 - 09/2004Habilitation "From Sol-Gel Processing to Bio-inspired Materials Synthesis"

Auslandsaufenthalte

08/1991 - 10/1992State University of New York at Albany (USA), Research-Assistantship
10/2001 - 11/2001Gastdozentur an der Tsinghua-Universität Peking (VR China)

Berufstätigkeit

02/1992 - 08/1992Institute for the Study of Defects in Solids, Albany, NY
06/1995 - 10/1997Fraunhofer-Institut für Silicatforschung (ISC) Würzburg als Doktorand
11/1997 - 09/1999Fraunhofer-Institut für Silicatforschung (ISC) Würzburg als wissenschaftlicher Mitarbeiter
10/1999 - 09/2004Lehrstuhl für Silicatchemie der Universität Würzburg als Habilitand
seit 10/2004Fraunhofer-Institut für Silicatforschung (ISC) Würzburg als wissenschaftlicher Mitarbeiter
seit 11/2006Privatdozent an der Universität Würzburg
seit 05/2014außerplanmäßige Professur an der Universität Würzburg

Arbeitsgebiete 

  • Nichtmetallische anorganische Materialien aus flüssigen Vorstufen
  • Nasschemische Beschichtungstechnik
  • Chemische Nanotechnologie

„Mesoporous TiO2 thin films prepared from hydrothermally treated precursor powder sols”

Bettina Herbig and Peer Löbmann, J Sol-Gel Sci.Tec. 87 (2018) 292-298.

 

„Sol-Gel Processing of MgF2 Antireflective Coatings”

Peer Löbmann, Nanomaterials 8 (2018) 295.

 

„BN-hybrid polymer composites: influence of particle surface functionalization”

Katharina Lang and Peer Löbmann, J Sol-Gel Sci.Tec. 86 (2018) 135-150.

 

„MgF2 films prepared from solvothermally treated precursor solutions”

Rainer Jahn and Peer Löbmann, J Sol-Gel Sci.Tec. 85 (2018) 514-519.

 

„Characterization of sol–gel thin films by ellipsometric porosimetry”

Peer Löbmann, J Sol-Gel Sci.Tec. 84 (2017) 2–15.

 

„Antireflective coatings by sol–gel processing: commercial products and future perspectives”

Peer Löbmann, J Sol-Gel Sci.Tec. 83 (2017) 291–295.

 

„Hybrid polymer incorporating BN particles: Thermal, mechanical, and electrical properties”

Mathias Fink, Daniela Collin, Peer Löbmann, J Sol-Gel Sci.Tec. 83 (2017) 489–494.

 

„Solubility of porous MgF2 films in water: influence of glass substrates”

Jan Hegmann, Rainer Jahn, Peer Löbmann, J Sol-Gel Sci Technol 82 (2017) 40–44                      

 

 

„Anti-Soiling Surfaces for PV Applications Prepared by Sol-Gel Processing: Comparison of Laboratory Testing and Outdoor Exposure”

Mohammed I. Alhussaini, Mark Mirza, Jan Hegmann, Walther Glaubitt, Peer Löbmann,

Solar Energy Materials & SolarCells 157 (2016) 422–428.

                   

“Adjustable refractive index of titania–alumina thin films prepared from soluble precursor

powders” K.Müller, J.Hegmann, R.Jahn, P.Löbmann, J.Sol-GelSci.Tec. 77 (2016) 69-77.

                   

“Optimisation of a sol–gel synthesis route for the preparation of MgF2 particles for a large

scale coating process” K. Scheurell, J.Noack, R.König, J.Hegmann, R.Jahn, T.Hofmann,

P.Löbmann, B.Lintner, P.Garcia-Juan, J.Eicher, E. Kemnitz, Dalton Trans. 44 (2015)

19501-19508.

                   

“Porous MgF2 antireflective l/4 films prepared by sol–gel processing: comparison of

synthesis approaches” K.Scheurell, E.Kemnitz, P.Garcia-Juan, J.Eicher,B.Lintner,

J.Hegmann R. Jahn, T.Hofmann, P.Löbmann J.Sol-GelSci.Technol. 76 (2015) 82–89.

                  

“SiO2–TiO2 scattering layers prepared by sol–gel processing for light management in thin

film solar cells” J.Hegmann, R.Jahn, S.Schönau, N.Sommer, P.Löbmann, J.Sol

GelSci.Tec. 74 (2015) 585-59.

 

„Sol–gel derived scattering layers as substrates for thin-film photovoltaic cells“

J.Hegmann, M.Mandl, P.Löbmann; Thin Solid Films, 564 (2014) 201-205.

 

„Sol–gel derived scattering layers as substrates for thin-film photovoltaic cells“

J.Hegmann, M.Mandl, P.Löbmann; Thin Solid Films, 564 (2014) 201-205.

 

„Periodic nanostructures imprinted on high-temperature stable sol–gel films by ultraviolet-based nanoimprint lithography for photovoltaic and photonic applications“

F.Back, M.Bockmeyer, E.Rudigier-Voigt, P.Löbmann; Thin Solid Films, 562 (2014) 274–281.

 

„Sol–gel preparation of TiO2 and MgF2 multilayers“

J.Hegmann, P.Löbmann; J. Sol-Gel Sci. Technol., 67(3) (2013) 436–441.

 

„Hybrid polymer sol–gel material for UV-nanoimprint: microstructure and thermal densification“

F.Back, M.Bockmeyer, E.Rudigier-Voigt, P.Löbmann; J. Sol-Gel Sci. Technol., 66(1) (2013) 73-83.

 

„Microstructure and performance of AZO thin films prepared by sol-gel processing“

R.Jahn, P.Löbmann; J. Sol-Gel Sci. Technol., 66(1) (2013) 120-125.

 

„MgF2 antireflective coatings by sol-gel processing: film preparation and thermal densification“

J.Noack, K.Scheurell, E.Kemnitz, P.Garcia-Juan, H.Rau, M.Lacroix, J.Eicher, B.Lintner, T.Sontheimer, T.Hofmann, J.Hegmann, R.Jahn, P.Löbmann; J. Mater. Chem., 22 (2012) 18535-18541.

 

„Antireflective coatings prepared by sol-gel processing: Principles and applications“

W.Glaubitt, P.Löbmann; J. Eur. Ceram. Soc., 32(11) (2012) 2995-2999.

 

„Characterization of stacked sol-gel films: Comparison of results derived from scanning electron microscopy, UV-Vis spectroscopy and ellipsometric porosimetry“

A.Bittner, A.Schmitt, R.Jahn, P.Löbmann; Thin Solid Films, 520(6) (2012) 1880-1884.

 

„Controlling crystallization and sintering of α-Al2O3–YAG Fibers by Atmospheric Conditions“

R.Krüger, P.Löbmann; J. Am. Ceram. Soc., 94(5) (2011) 1563-1567.

 

„Anti-soiling effect of porous SiO2 coatings prepared by sol–gel processing“

W.Glaubitt, P.Löbmann; J. Sol-Gel Sci. Technol., 59(2) (2011) 239-244.

 

„TiO2 thin films on soda-lime and borosilicate glass prepared by sol–gel processing: influence of the substrates“

A.Bittner, R.Jahn, P.Löbmann; J. Sol-Gel Sci. Technol., 58(2) (2011) 400-406.

 

„Pathways towards P-Type Oxide Layers for Optoelectronic Applications“

B.Szyszka, C.Polenzky, P.Löbmann, S.Götzendoerfer, C.Elsässer, W.Körner; 5th Forum on New Materials, Part D (2010) 16-24.

 

„Influence of single layer thickness on the performance of undoped and Mg-doped CuCrO2 thin films by sol–gel processing“

S.Götzendörfer, P.Löbmann; J. Sol-Gel Sci. Technol., 57(2) (2011) 157-163.

 

„Structural and physical effects of Mg-doping on p-type CuCrO2 and CuAl0.5Cr0.5O2 thin films“

R.Bywalez, S.Götzendörfer, P.Löbmann; J. Mater. Chem., 20 (2010) 6562-6570.

 

„Atmospheric control of gel-oxide transformation in sol–gel derived Al2O3-Y2O3 fibers“

R.Krüger, P.Löbmann; J. Sol-Gel Sci. Technol., 55(1) (2010) 9-14.

 

„Development of new transparent conductors and device applications utilizing a multidisciplinary approach“

B.Szyszka, P.Löbmann, A.Georg, C.May, C.Elsässer; Thin Solid Films, 518(11) (2010) 3109-3114.

 

„Growth mechanism of Nb-doped TiO2 sol–gel multilayer films characterized by SEM and focus/defocus TEM“

C.Wang, J.Meinhardt, P.Löbmann; J. Sol-Gel Sci. Technol., 53(2) (2010) 148-153.

 

„Preparation of CuAlO2 and CuCrO2 thin films by sol–gel processing“

S.Götzendörfer, C.Polenzky, S.Ulrich, P.Löbmann; Thin Solid Films, 518(4) (2009) 1153-1156.

 

„Preparation of p-type conducting transparent CuCrO2 and CuAl0.5Cr0.5O2 thin films by sol–gel processing“

S.Götzendörfer, R.Bywalez, P.Löbmann; J. Sol-Gel Sci. Technol., 52(1) (2009) 113-118.

 

„Development of advanced transparent conductive electrodes for large-area opto-electronic devices“

B.Szyszka, A.Gombert, P.Löbmann, C.May, C.Elsässer; Annual Technical Conference Proceedings - Society of Vacuum Coaters, 51 (2008) 395-401.

 

„Microstructure of sol-gel derived TiO2 thin films characterized by atmospheric ellipsometric porosimetry“

M.Bockmeyer, B.Herbig, P.Löbmann; Thin Solid Films, 517(5) (2009) 1596-1600.

 

„Modified procedure for the sol–gel processing of indium–tin oxide (ITO) films“

A.Prodi-Schwab, T.Luethge, R.Jahn, B.Herbig, P.Löbmann; J. Sol-Gel Sci. Technol., 47(1) (2008) 68-73.

 

„Formation, densification and properties of sol–gel TiO2 films prepared from triethanolamine-chelated soluble precursor powders“

M.Bockmeyer, P.Löbmann; J. Sol-Gel Sci. Technol., 45(3) (2008) 251–259.

 

„Liquid phase deposition of TiO2 on glass: Systematic comparison to films prepared by sol–gel processing“

M.Mallak, M.Bockmeyer, P.Löbmann; Thin Solid Films, 515(20-21) (2007) 8072–8077.

 

„Crack formation in TiO2 films prepared by sol–gel processing: Quantification and characterization“

M.Bockmeyer, P.Löbmann; Thin Solid Films, 515(13) (2007) 5212–5219.

 

„From Sol-Gel Processing to Bio-Inspired Materials Synthesis“

P.Löbmann; Current Nanoscience, 3(4) (2007) 306-328.

 

„Densification and Microstructural Evolution of TiO2 Films Prepared by Sol-Gel Processing“

M.Bockmeyer, P.Löbmann; Chem. Mater., 18(18) (2006) 4478-4485.

 

„Coating of Polymer Surfaces by Liquid Phase Deposition of TiO2: A Biologically-inspired Approach“

P.Löbmann; Adv. Sci. Technol., 45 (2006) 1246-1251.

 

„Observation of nano-clustered calcite growth via a transient phase mediated by organic polyanions: A close match for biomineralization“

I.Sethmann, A.Putnis, O.Grassmann, P.Löbmann; Am. Mineral., 90(7) (2005) 1213-1217.

 

„Soluble precursor powders as precursors for TiO2 thin films“

P.Löbmann; J. Sol-Gel Sci. Technol., 33(3) (2005) 275-282.

 

„Influence of Plasma Functionalization of Poly(propylene) with Acrylic Acid on the Nucleation of CaCO3

V.Sciarratta, C.Oehr, C.Diegelmann, P.Löbmann; Plasma Process. Polym., 1(1) (2004) 51-56.

 

„Porous TiO2 hollow spheres by liquid phase deposition on polystyrene latex-stabilised Pickering emulsions“

H.Strohm, P.Löbmann; J. Mater. Chem., 14 (2004) 2667-2673.

 

„TiO2 photocatalysts deposited on fiber substrates by liquid phase deposition“

B.Herbig, P.Löbmann; J. Photochem. Photobiol. A: Chemistry, 163(3) (2004) 359-365.

 

„Assembly of hollow spheres by templated liquid phase deposition following the principles of biomineralisation“

H.Strohm, P.Löbmann; J. Mater. Chem., 14(2) (2004) 138-140.

 

„Biomimetic nucleation and growth of CaCO3 in hydrogels incorporating carboxylate groups“

O.Grassmann, P.Löbmann; Biomaterials, 25(2) (2004) 277-282.

 

„Nucleation and Growth of TiO2 Thin Films on Modified Polystyrene Surfaces“

A.Dutschke, C.Diegelmann, P.Löbmann; Chem. Mater., 15(18) (2003) 3501-3506.

 

„Industrial processing of TiO2 thin films from soluble precursor powders.“

P.Löbmann, P.Röhlen; Glass Sci. Technol., 76(1) (2003) 1-7.

 

„Biomimetic control of crystal assembly by growth in an organic hydrogel network.“

O.Grassmann, R.Neder, A.Putnis, P.Löbmann; Am. Mineral., 88(4) (2003) 647-652.

 

„Preparation of TiO2 thin films on polystyrene by liquid phase deposition.“

A.Dutschke, C.Diegelmann, P.Löbmann; J. Mater. Chem., 13(5) (2003) 1058-1063.

 

„Preparation of TiO2-polymer hybrid microcapsules.“

H.Strohm, M.Sgraja, J.Bertling, P.Löbmann; J. Mater. Sci., 38(8) (2003) 1605-1609.

 

„Morphogenetic control of calcite crystal growth in sulfonic acid based hydrogels.“

O.Grassmann, P.Löbmann; Chem. Eur. J., 9(6) (2003) 1310-1316.

 

„Organic−Inorganic Hybrid Structure of Calcite Crystalline Assemblies Grown in a Gelatin Hydrogel Matrix:  Relevance to Biomineralization.“

O.Grassmann, G.Müller, P.Löbmann; Chem. Mater., 14(11) (2002) 4530-4535.

 

„Structural Evolution in Sol–Gel-Derived Yttrium Aluminum Garnet–Alumina Precursor Fibers.“

R.Krüger, W.Glaubitt, P.Löbmann; J. Am. Ceram. Soc., 85(11) (2002) 2827-2833.

 

„Sol-gel deposition process of thin films“

D.Sporn, P.Löbmann, U.Guntow, W.Glaubitt; „Chemical Physics of Thin Film Deposition Processes for Micro- and Nano-Technologies“ ed. Y.Pauleau, NATO Science Series, 55 (2002) 69-89.

 

„Powders, fibers, thin films and aerogels: Sol-gel-derived piezoelectric materials“

P.Löbmann, U.Lange, W.Glaubitt, F.Hutter, D.Sporn; Key Eng. Mater., 224-226 (2002) 613-618.

 

„Electrical properties of PZT aerogels“

S.Geis, J.Fricke, P.Löbmann; J. Eur. Ceram. Soc., 22(7) (2002) 1155-1161.

 

„Inorganic thin films prepared from soluble powders and their applications“

P.Löbmann, R.Jahn, S.Seifert, D.Sporn; J. Sol-Gel Sci. Technol., 19(1-3) (2000) 473-477.

 

„PZT-Aerogels: Sol-Gel Derived Piezoelectric 3-3 Composites“

P.Löbmann, W.Glaubitt, S.Geis; J. Sol-Gel Sci. Technol., 19(1-3) (2000) 145-148.

 

„Applications of periodically structured surfaces on glass“

V.Wittwer, A.Gombert, K.Rose, P.Löbmann, D.Sporn, P.Manns, W.Döll, K.Seibert; Glass Sci. Technol., 73(4) (2000) 116-118.

 

„Dielectric properties of PZT aerogels“

S.Geis, P.Löbmann, S.Seifert, J.Fricke; Ferroelectrics, 241(1) (2000) 75-82.

 

„Ferroelectric thin-layer printing rollers as storage media for the printing process“

S.Seifert, P.Löbmann, D.Sporn; Werkstoffwoche '98, Band I Symp.1&12, (1999) 173-178.

 

„Development of ferroelectric aerogels“

P. Löbmann, W.Glaubitt, S.Geis, J.Fricke; J. Sol-Gel Sci. Technol. 16(1-2) (1999) 173-182.

 

„PT and PZT aerogels: promising piezoceramic materials for ultrasonic applications“

P.Löbmann, W.Glaubitt, S. Geis, J.Fricke; (9th Cimtec-World Ceramics Congress, Ceramics: Getting into the 2000‘s - Part D, ed. P.Vincenzini) 735-741.

 

„Thickness Dependence of electromechanical properties of PZT thin films on metallic substrates“

S.Seifert, P.Löbmann, D.Sporn, T.Hauke, H.Beige; (9th Cimtec - World Forum on New Materials, Symposium VIII - Smart Materials Systems, ed. P.Vincenzini) 11-16.

 

„Clamping of piezoelectric thin films on substrates: influence on the effective piezoelectric modulus d33

R.Steinhausen, T.Hauke, W.Seifert, V.Müller, H.Beige, S.Seifert, P.Löbmann, D.Sporn; (ISAF XI & Electroceramics VI, August 24-27, 1998, Montreux, Switzerland) 93-96.

 

„Ferroelectric PZT thin films on steel substrates: preparation and application as sensor elements“

S.Seifert, M.Giersbach, P.Löbmann, D.Sporn, T.Hauke, H.Beige; (ISAF XI & Electroceramics VI, August 24-27, 1998, Montreux, Switzerland) 85-88.

 

„Influence of processing parameters on dielectric properties of PZT thin films on steel substrates“

S.Seifert, P.Löbmann, D.Sporn; J. Phys. IV, 8(PR9) (1998) 61-64.

 

„Lead zirconate titanate films prepared from soluble powders“

P.Löbmann, S.Seifert, S.Merklein, D.Sporn; J. Sol-Gel Sci. Technol., 13(1-3) (1998) 827-831.

 

„SAXS investigations of morphological changes in lead titanate aerogels upon heat treatment“

S.Geis, P.Löbmann, J.Fricke; J. Non-Cryst. Solids, 225 (1998) 226-229.

 

„Monolithic crystalline lead zirconate titanate aerogels“

P.Löbmann, W.Glaubitt, S.Geis, J.Fricke; J. Non-Cryst. Solids, 225 (1998) 130-134.

 

„Preparation of monolithic crystalline lead titanate aerogels“

P.Löbmann, W.Glaubitt, G.Müller, S.Geis, J.Fricke; J. Mater. Sci., 33(9) (1998) 2371-2377.

 

„Densification and crystallization of lead titanate aerogels“

P.Löbmann, W.Glaubitt, J.Fricke; J. Am. Ceram. Soc., 80(10) (1997) 2658-2666.

 

„Structural investigations on lead titanate xerogels and aerogels“

P.Löbmann, J.Groß, W.Glaubitt, J.Fricke; J. Non-Cryst. Solids, 201(1-2) (1996) 66-75.

 

„Preparation and characterization of lead titanate aerogels“

P.Löbmann, W.Glaubitt, J.Groß, J.Fricke; J. Non-Cryst. Solids, 186 (1995) 59-63.

 

 

Monographien

„Transparent conducting oxides“

in „Chemical Solution Deposition of Functional Oxide Thin Film“ - T.Schneller, R.Waser, M.Kosec, D.Payne (Hrsg.) (Springer, Wien, Heidelberg, New York, 2013) p. 655-672.

 

„Antireflective Coatings and Optical Filters“

in „Chemical Solution Deposition of Functional Oxide Thin Film“ - T.Schneller, R.Waser, M.Kosec, D.Payne (Hrsg.) (Springer, Wien, Heidelberg, New York, 2013) p. 707-724

 

„Sol-Gel Beschichtungen“

in „Oberflächenveredelung von Glas“ (HVG, Offenbach/Main, 2003) 37-66.