Publikationen von M. Lindén

Schmidt, W.; Bussian, P.; Lindén, M.; Amenitsch, H.; Agren, P.; Tiemann, M.; Schüth, F. Accessing Ultrashort Reaction Times in Particle Formation with SAXS Experiments: ZnS Precipitation on the Microsecond Time Scale. Journal of the American Chemical Society 2010, 132, 6822–6826.

Tiemann, M.; Marlow, F.; Hartikainen, J.; Weiss, Ö.; Lindén, M. Ripening effects in ZnS nanoparticle growth. Journal of Physical Chemistry C 2008, 112, 1463–1467.

Smått, J.-H.; Weidenthaler, C.; Rosenholm, J. B.; Lindén, M. Hierarchically Porous Metal Oxide Monoliths Prepared by the Nanocasting Route. Chemistry of Materials 2006, 18, 1443–1450.

Tiemann, M.; Marlow, F.; Brieler, F.; Lindén, M. Early stages of ZnS growth studied by stopped-flow UV absorption spectroscopy: Effects of educt concentrations on the nanoparticle formation. Journal of Physical Chemistry B 2006, 110, 23142–23147.

Andersson, J.; Areva, S.; Spliethoff, B.; Lindén, M. Sol-gel synthesis of a multifunctional, hierarchically porous silica/apatite composite. Biomaterials 2005, 26, 6827–6835.

Lu, A.-H.; Smått, J.-H.; Lindén, M. Combined surface and volume templating of highly porous nanocast carbon monoliths. Advanced Functional Materials 2005, 15, 865–871.

Tiemann, M.; Weiss, O.; Hartikainen, J.; Marlow, F.; Lindén, M. Early stages of ZnS nanoparticle growth studied by in-situ stopped-flow UV absorption spectroscopy. ChemPhysChem 2005, 6, 2113–2119.

Areva, S.; Boissière, C.; Grosso, D.; Asakawa, T.; Sanchez, C.; Lindén, M. One-pot aerosol synthesis of ordered hierarchical mesoporous core-shell silica nanoparticles. Chemical Communications (Cambridge, U. K.) 2004, Nr. 14, 1630–1631.

Flodström, K.; Teixeira, C. V.; Amenitsch, H.; Alfredsson, V.; Lindén, M. In situ synchrotron small-angle X-ray scattering/X-ray diffraction study of the formation of SBA-15 mesoporous silica. Langmuir 2004, 20, 4885–4891.

Flodström, K.; Wennerström, H.; Teixeira, C. V.; Amenitsch, H.; Lindén, M.; Alfredsson, V. Time-resolved in situ studies of the formation of cubic mesoporous silica formed with triblock copolymers. Langmuir 2004, 20, 10311–10316.

Lu, A.-H.; Smatt, J. H.; Backlund, S.; Lindén, M. Easy and flexible preparation of nanocasted carbon monoliths exhibiting a multimodal hierarchical porosity. Microporous and Mesoporous Materials 2004, 72, 59–65.

Smått, J. H.; Spliethoff, B.; Rosenholm, J. B.; Lindén, M. Hierarchically porous nanocrystalline cobalt oxide monoliths through nanocasting. Chemical Communications (Cambridge, U. K.) 2004, Nr. 19, 2188–2189.

Yang, C.-M.; Smatt, J.-H.; Zibrowius, B.; Lindén, M. Chemical removal of organic polymers from highly porous sol-gel-derived silica monoliths. New Journal of Chemistry 2004, 28, 1520–1525.

Wang, Y. Q.; Yang, C.-M.; Zibrowius, B.; Spliethoff, B.; Lindén, M.; Schüth, F. Directing the formation of vinyl-functionalized silica to the hexagonal SBA-15 or large-pore Ia3d structure. Chemistry of Materials 2003, 15, 5029–5035.

Lind, A.; du Fresne von Hohenesche, C.; Smått, J. H.; Lindén, M.; Unger, K. K. Spherical silica agglomerates possessing hierarchical porosity prepared by spray drying of MCM-41 and MCM-48 nanospheres. Microporous and Mesoporous Materials 2003, 66, 219–227.

Lu, A. H.; Smått, J. H.; Lindén, M.; Schüth, F. Synthesis of carbon monoliths with a multi-modal pore system by a one step impregnation technique. New Carbon Materials 2003, 18, 265–269.

Czuryszkiewicz, T.; Kleitz, F.; Schüth, F.; Lindén, M. Combined use of cosurfactant/surfactant mixtures and swelling agents in the synthesis of mesoporous titanium oxophosphates. Chemistry of Materials 2003, 15, 3704–3709.

Taguchi, A.; Smått, J. H.; Linden, M. Carbon monoliths possessing a hierarchical, fully interconnected porosity. Advanced Materials 2003, 15, 1209–1211.

Lind, A.; Spliethoff, B.; Lindén, M. Unusual, vesicle-like patterned, mesoscopically ordered silica. Chemistry of Materials 2003, 15, 813–818.

Schüth, F.; Czuryszkiewicz, T.; Kleitz, F.; Lindén, M.; Lu, A.-H.; Rosenholm, J.; Schmidt, W.; Taguchi, A. Expanding horizons of mesoporous materials to non-siliceous systems. Studies in Surface Science and Catalysis 2003, 146, 399–406.