{"id":305,"date":"2009-06-25T17:00:32","date_gmt":"2009-06-25T22:00:32","guid":{"rendered":"http:\/\/nanowizardry.info\/?page_id=305"},"modified":"2009-06-25T17:00:32","modified_gmt":"2009-06-25T22:00:32","slug":"adv-mater-adv-funct-mater","status":"publish","type":"page","link":"https:\/\/nanowizard.info\/?page_id=305","title":{"rendered":"Adv. Mater. & Adv. Funct. Mater."},"content":{"rendered":"

Advanced Materials<\/a> is the second highest citation impact (8.191) journal specializing in materials chemistry and Advanced Functional Materials <\/a>is hot on its heels (7.496).<\/p>\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n
The 10 most cited articles published in Advanced Materials<\/th>\n<\/tr>\n<\/thead>\n
<\/td>\nAuthor(s)<\/td>\nReference<\/td>\nTitle<\/td>\n<\/tr>\n
\n
1.<\/div>\n<\/td>\n
G. Leising et. al.<\/td>\n1992<\/strong>, 4<\/em>, 36<\/td>\nRealization of a Blue Light Emitting Device using PPP<\/td>\n<\/tr>\n
\n
2.<\/div>\n<\/td>\n
F. Garnier et. al.<\/td>\n1990<\/strong>, 2<\/em>,592<\/td>\nAll Organic Soft Thin Film Transistor<\/td>\n<\/tr>\n
\n
3.<\/strong><\/div>\n<\/td>\n
G. A. Ozin<\/strong><\/td>\n1992<\/strong>, 4<\/em>, 612<\/td>\nNanochemistry – Synthesis <\/strong> in Diminishing Dimensions<\/strong><\/td>\n<\/tr>\n
\n
4.<\/div>\n<\/td>\n
P. B\u00e4uerle<\/td>\n1992<\/strong>, 4<\/em>, 102<\/td>\nEnd-Capped Oligothiophenes – New Model Compounds …<\/td>\n<\/tr>\n
\n
5.<\/div>\n<\/td>\n
I. Peterson et. al.<\/td>\n1990<\/strong>, 2<\/em>, 309<\/td>\nPhase Diagrams of Monolayers of Long Chain Fatty Acids<\/td>\n<\/tr>\n
\n
6.<\/div>\n<\/td>\n
H. Fuchs et. al.<\/td>\n1991<\/strong>, 3<\/em>, 10<\/td>\nUltrathin Organic Films – Molecular Architectures …<\/td>\n<\/tr>\n
\n
7.<\/div>\n<\/td>\n
H. Weller<\/td>\n1993<\/strong>, 5<\/em>, 88<\/td>\nQuantized Semiconductor Particles…<\/td>\n<\/tr>\n
\n
8.<\/div>\n<\/td>\n
D. W\u00f6hrle et. al.<\/td>\n1991<\/strong>, 3<\/em>, 129<\/td>\nOrganic Solar Cells …<\/td>\n<\/tr>\n
\n
9.<\/div>\n<\/td>\n
J. S. Miller et. al.<\/td>\n1991<\/strong>, 3<\/em>, 309<\/td>\nA Molecular Ferromagnet with an 8.8 K Tc<\/sub><\/td>\n<\/tr>\n
\n
10.<\/div>\n<\/td>\n
T. T. Kodas et. al.<\/td>\n1991<\/strong>, 3<\/em>, 246<\/td>\nSelective Low Temperature CVD of Copper …<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

The institutions receiving the most citations for their articles in Advanced Materials<\/strong><\/h2>\n
    \n
  1. Max Planck Institute for Polymer Science, Mainz, Germany<\/li>\n
  2. University of Toronto, Toronto, Canada<\/strong><\/li>\n
  3. Graz Technical University, Graz, Austria<\/li>\n
  4. University of Stuttgart, Stuttgart, Germany<\/li>\n
  5. Laboratoire des Mat\u00e9riaux Mol\u00e9culaires, Thiais, France<\/li>\n
  6. Du Pont, Wilmington, Delaware, USA<\/li>\n
  7. Hoechst AG, Frankfurt, Germany<\/li>\n
  8. University of Mainz, Mainz, Germany<\/li>\n
  9. BASF AG, Ludwigshafen, Germany<\/li>\n
  10. University of Cambridge, Cambridge, UK<\/li>\n<\/ol>\n

    Authors receiving the most citations for their articles published in Advanced Materials from 1994 to 1996<\/h2>\n
      \n
    1. R. H. Friend, University of Cambridge, UK<\/li>\n
    2. G. A. Ozin, University of Toronto, Canada<\/strong><\/li>\n
    3. S. N. Magonov, Digital Instcuments, USA<\/li>\n
    4. D. D. C. Bradley, University of Sheffield, UK<\/li>\n
    5. K. M\u00fcllen, Max Planck Institute, Mainz, Germany<\/li>\n
    6. I. Manners, University of Toronto, Canada<\/li>\n
    7. M. H. Whangbo, North Carolina State University, USA<\/li>\n
    8. H. R. Allcock, Penn State University, USA<\/li>\n
    9. G. Hadziioannou, University of Groningen, The Netherlands<\/li>\n
    10. F. Garnier, CNRS, France<\/li>\n<\/ol>\n

      Bonifacio, L. D., B. V. Lotsch, et al. (2009). “Stacking the Nanochemistry Deck: Structural and Compositional Diversity in One-Dimensional Photonic Crystals.” Advanced Materials<\/span> 21<\/strong>(16): 1641-1646.<\/p>\n

      Cademartiri, L. and G. A. Ozin (2009). “Ultrathin Nanowires – A Materials Chemistry Perspective.” Advanced Materials<\/span> 21<\/strong>(9): 1013-1020.<\/p>\n

      Suezaki, T., P. G. O’Brien, et al. (2009). “Tailoring the Electrical Properties of Inverse Silicon Opals – A Step Towards Optically Amplified Silicon Solar Cells.” Advanced Materials<\/span> 21<\/strong>(5): 559-+.<\/p>\n

      Chen, J. I. L. and G. A. Ozin (2008). “Tracing the Effect of Slow Photons in Photoisomerization of Azobenzene.” Advanced Materials<\/span> 20<\/strong>(24): 4784-+.<\/p>\n

      Lotsch, B. V. and G. A. Ozin (2008). “Clay Bragg Stack Optical Sensors.” Advanced Materials<\/span> 20<\/strong>(21): 4079-+.<\/p>\n

      O’Brien, P. G., N. P. Kherani, et al. (2008). “Silicon photovoltaics using conducting photonic crystal back-reflectors.” Advanced Materials<\/span> 20<\/strong>(8): 1577-1582.<\/p>\n

      Vekris, E., V. Kitaev, et al. (2008). “Visulization of stacking faults and their formation in colloidal photonic crystal films.” Advanced Materials<\/span> 20<\/strong>(6): 1110-+.<\/p>\n

      Wong, S., O. Kiowski, et al. (2008). “Spatially Localized Photoluminescence at 1.5 Micrometers Wavelength in Direct Laser Written Optical Nanostructures (vol 20, pg 4097, 2008).” Advanced Materials<\/span> 20<\/strong>(23): 4385-4385.<\/p>\n

      Hermatschweiler, M., A. Ledermann, et al. (2007). “Fabrication of silicon inverse woodpile photonic crystals.” Advanced Functional Materials<\/span> 17<\/strong>: 2273-2277.<\/p>\n

      O’Brien, P. G., N. P. Kherani, et al. (2007). “Enhanced photoconductivity in thin-film semiconductors optically coupled to photonic crystals.” Advanced Materials<\/span> 19<\/strong>(23): 4177-+.<\/p>\n

      O’Brien, P. G., N. P. Kherani, et al. (2007). “Enhanced photoconductivity in thin-film semiconductors optically coupled to photonic crystals (vol 19, pg 4117, 2007).” Advanced Materials<\/span> 19<\/strong>(24): 4326-4326.<\/p>\n

      Arsenault, A., F. Fleischhaker, et al. (2006). “Perfecting imperfection – Designer defects in colloidal photonic crystal.” Advanced Materials<\/span> 18<\/strong>(20): 2779-2785.<\/p>\n

      Chen, J. I. L., G. von Freymann, et al. (2006). “Amplified photochemistry with slow photons.” Advanced Materials<\/span> 18<\/strong>(14): 1915-+.<\/p>\n

      Choi, S. Y., B. Lee, et al. (2006). “3D hexagonal (R-3m) mesostructured nanocrystalline titania thin films: Synthesis and characterization.” Advanced Functional Materials<\/span> 16<\/strong>(13): 1731-1738.<\/p>\n

      Fleischhaker, F., A. C. Arsenault, et al. (2006). “DNA designer defects in photonic crystals: Optically monitored biochemistry.” Advanced Materials<\/span> 18<\/strong>(18): 2387-+.<\/p>\n

      Malakooti, R., L. Cademartiri, et al. (2006). “Shape-controlled Bi2S3 nanocrystals and their plasma polymerization into flexible film.” Advanced Materials<\/span> 18<\/strong>(16): 2189-+.<\/p>\n

      Tetreault, N., G. von Freymann, et al. (2006). “New route to three-dimensional photonic bandgap materials: Silicon double inversion of polymer templates.” Advanced Materials<\/span> 18<\/strong>(4): 457-+.<\/p>\n

      Vekris, E., G. A. Ozin, et al. (2006). “Curling colloidal photonic crystals.” Advanced Materials<\/span> 18<\/strong>(18): 2481-+.<\/p>\n

      Wong, S., M. Deubel, et al. (2006). “Direct laser writing of three-dimensional photonic crystals with complete a photonic bandgap in chalcogenide glasses.” Advanced Materials<\/span> 18<\/strong>(3): 265-+.<\/p>\n

      Cohen, Y., K. Landskron, et al. (2005). “A silicon-silica nanocomposite material.” Advanced Functional Materials<\/span> 15<\/strong>(4): 593-602.<\/p>\n

      Fleischhaker, F., A. C. Arsenault, et al. (2005). “Redox-tunable defects in colloidal photonic crystals.” Advanced Materials<\/span> 17<\/strong>(20): 2455-+.<\/p>\n

      Hatton, B. D., K. Landskron, et al. (2005). “Spin-coated periodic mesoporous organosilica thin films – Towards a new generation of low-dielectric-constant materials.” Advanced Functional Materials<\/span> 15<\/strong>(5): 823-829.<\/p>\n

      Hunks, W. J. and G. A. Ozin (2005). “Single-source precursors for synthesizing bifunctional periodic mesoporous organosilicas.” Advanced Functional Materials<\/span> 15<\/strong>(2): 259-266.<\/p>\n

      Kamp, U., V. Kitaev, et al. (2005). “Colloidal crystal capillary columns – Towards optical chromatography.” Advanced Materials<\/span> 17<\/strong>(4): 438-+.<\/p>\n

      Ozin, G. A., I. Manners, et al. (2005). “Dream nanomachines.” Advanced Materials<\/span> 17<\/strong>(24): 3011-3018.<\/p>\n

      Tetreault, N., A. C. Arsenault, et al. (2005). “Building tunable planar defects into photonic crystals using polyelectrolyte multilayers.” Advanced Materials<\/span> 17<\/strong>(15): 1912-+.<\/p>\n

      Vekris, E., V. Kitaev, et al. (2005). “Buried linear extrinsic defects in colloidal photonic crystals.” Advanced Materials<\/span> 17<\/strong>(10): 1269-+.<\/p>\n

      von Freymann, G., S. John, et al. (2005). “Enhanced coupling to slow photon modes in three-dimensional graded colloidal photonic crystals.” Advanced Materials<\/span> 17<\/strong>(10): 1273-+.<\/p>\n

      Whitnall, W., T. Asefa, et al. (2005). “Hybrid periodic mesoporous organosilicas.” Advanced Functional Materials<\/span> 15<\/strong>(10): 1696-1702.<\/p>\n

      Choi, S. Y., M. Mamak, et al. (2004). “Thermally stable two-dimensional hexagonal mesoporous nanocrystalline anatase, meso-nc-TiO2: Bulk and crack-free thin film morphologies.” Advanced Functional Materials<\/span> 14<\/strong>(4): 335-344.<\/p>\n

      Fournier-Bidoz, S., V. Kitaev, et al. (2004). “Highly ordered nanosphere imprinted nanochannel alumina (NINA).” Advanced Materials<\/span> 16<\/strong>(23-24): 2193-+.<\/p>\n

      Tetreault, N., H. Miguez, et al. (2004). “Silicon inverse opal – A platform for photonic bandgap research.” Advanced Materials<\/span> 16<\/strong>(16): 1471-1476.<\/p>\n

      Tetreault, N., A. Mihi, et al. (2004). “Dielectric planar defects in colloidal photonic crystal films.” Advanced Materials<\/span> 16<\/strong>(4): 346-+.<\/p>\n

      Arsenault, A. C., H. Miguez, et al. (2003). “A polychromic, fast response metallopolymer gel photonic crystal with solvent and redox tunability: A step towards photonic ink (P-Ink).” Advanced Materials<\/span> 15<\/strong>(6): 503-507.<\/p>\n

      Berenbaum, A., M. Ginzburg-Margau, et al. (2003). “Ceramics containing magnetic co-fe alloy nanoparticles from the pyrolysis of a highly metallized organometallic polymer precursor.” Advanced Materials<\/span> 15<\/strong>(1): 51-+.<\/p>\n

      Cohen, Y., B. Hatton, et al. (2003). “Spin-on nanostructured silicon-silica film displaying room-temperature nanosecond lifetime photoluminescence.” Advanced Materials<\/span> 15<\/strong>(7-8): 572-576.<\/p>\n

      Dag, O., I. Soten, et al. (2003). “Solventless acid-free synthesis of mesostructured titania: Nanovessels for metal complexes and metal nanoclusters.” Advanced Functional Materials<\/span> 13<\/strong>(1): 30-36.<\/p>\n

      Halla, J. D., M. Mamak, et al. (2003). “Meso-SiO2-C12EO10OH-CF3SO3H – A novel proton-conducting solid electrolyte.” Advanced Functional Materials<\/span> 13<\/strong>(2): 133-138.<\/p>\n

      Kitaev, V. and G. A. Ozin (2003). “Self-assembled surface patterns of binary colloidal crystals.” Advanced Materials<\/span> 15<\/strong>(1): 75-+.<\/p>\n

      Miguez, H., N. Tetreault, et al. (2003). “A new synthetic approach to silicon colloidal photonic crystals with a novel topology and an omni-directional photonic bandgap: Micromolding in inverse silica opal (MISO).” Advanced Materials<\/span> 15<\/strong>(7-8): 597-600.<\/p>\n

      Scott, R. W. J., S. M. Yang, et al. (2003). “Engineered sensitivity of structured tin dioxide chemical sensors: Opaline architectures with controlled necking.” Advanced Functional Materials<\/span> 13<\/strong>(3): 225-231.<\/p>\n

      Tetreault, N., H. Miguez, et al. (2003). “Refractive index patterns in silicon inverted colloidal photonic crystals.” Advanced Materials<\/span> 15<\/strong>(14): 1167-+.<\/p>\n

      Galloro, J., M. Ginzburg, et al. (2002). “Replicating the structure of a crosslinked polyferrocenylsilane inverse opal in the form of a magnetic ceramic.” Advanced Functional Materials<\/span> 12<\/strong>(5): 382-388.<\/p>\n

      Miguez, H., S. M. Yang, et al. (2002). “Oriented free-standing three-dimensional silicon inverted colloidal photonic crystal microribers.” Advanced Materials<\/span> 14<\/strong>(24): 1805-1808.<\/p>\n

      Soten, I., H. Miguez, et al. (2002). “Barium titanate inverted opals – Synthesis, characterization, and optical properties.” Advanced Functional Materials<\/span> 12<\/strong>(1): 71-77.<\/p>\n

      Yang, S. M., H. Miguez, et al. (2002). “Opal circuits of light – Planarized microphotonic crystal chips.” Advanced Functional Materials<\/span> 12<\/strong>(6-7): 425-431.<\/p>\n

      Asefa, T., M. Kruk, et al. (2001). “Sequential hydroboration-alcoholysis and epoxidation-ring opening reactions of vinyl groups in mesoporous vinylsilica.” Advanced Functional Materials<\/span> 11<\/strong>(6): 447-456.<\/p>\n

      Dag, O. and G. A. Ozin (2001). “Organization of bridging organics in periodic mesoporous organosilicas (PMOs) – Polarization micro-raman spectroscopy.” Advanced Materials<\/span> 13<\/strong>(15): 1182-+.<\/p>\n

      Dag, O., C. Yoshina-Ishii, et al. (2001). “Oriented periodic mesoporous organosilica (PMO) film th organic functionality inside the channel walls.” Advanced Functional Materials<\/span> 11<\/strong>(3): 213-217.<\/p>\n

      Kulbaba, K., R. Resendes, et al. (2001). “Polyferrocenylsilane and magnetic ceramic microspheres.” Advanced Materials<\/span> 13<\/strong>(10): 732-736.<\/p>\n

      Mamak, M., N. Coombs, et al. (2001). “Electroactive mesoporous yttria stabilized zirconia containing platinum or nickel oxide nanoclusters: A new class of solid oxide fuel cell electrode materials.” Advanced Functional Materials<\/span> 11<\/strong>(1): 59-63.<\/p>\n

      Miguez, H., E. Chomski, et al. (2001). “Photonic bandgap engineering in germanium inverse opals by chemical vapor deposition.” Advanced Materials<\/span> 13<\/strong>(21): 1634-+.<\/p>\n

      Ozin, G. A. and S. M. Yang (2001). “The race for the photonic chip: Colloidal crystal assembly in silicon wafers.” Advanced Functional Materials<\/span> 11<\/strong>(2): 95-104.<\/p>\n

      Scott, R. W. J., S. M. Yang, et al. (2001). “Tin dioxide opals and inverted opals: Near-ideal microstructures for gas sensors.” Advanced Materials<\/span> 13<\/strong>(19): 1468-+.<\/p>\n

      Chomski, E. and G. A. Ozin (2000). “Panoscopic silicon – A material for “all” length scales.” Advanced Materials<\/span> 12<\/strong>(14): 1071-1078.<\/p>\n

      MacLachlan, M. J., I. Manners, et al. (2000). “New (inter)faces: Polymers and inorganic materials.” Advanced Materials<\/span> 12<\/strong>(9): 675-+.<\/p>\n

      Yang, S. M., N. Coombs, et al. (2000). “Micromolding in inverted polymer opals (MIPO): Synthesis of hexagonal mesoporous silica opals.” Advanced Materials<\/span> 12<\/strong>(24): 1940-+.<\/p>\n

      Dag, O., G. A. Ozin, et al. (1999). “Photoluminescent silicon clusters in oriented hexagonal mesoporous silica film.” Advanced Materials<\/span> 11<\/strong>(6): 474-+.<\/p>\n

      Sokolov, I., H. Yang, et al. (1999). “Radial patterns in mesoporous silica.” Advanced Materials<\/span> 11<\/strong>(8): 636-+.<\/p>\n

      Yang, S. M., I. Sokolov, et al. (1999). “Formation of hollow helicoids in mesoporous silica: Supramolecular Origami.” Advanced Materials<\/span> 11<\/strong>(17): 1427-1431.<\/p>\n

      Yang, S. M., H. Yang, et al. (1999). “Morphokinetics: Growth of mesoporous silica curved shapes.” Advanced Materials<\/span> 11<\/strong>(1): 52-55.<\/p>\n

      Jiang, T., A. Lough, et al. (1998). “Very soft chemistry: Room temperature self-assembly of (DABCOH)(2)Sn3S7, a microporous layered tin(IV) sulfide.” Advanced Materials<\/span> 10<\/strong>(1): 42-+.<\/p>\n

      MacLachlan, M. J., P. Aroca, et al. (1998). “Ring-opening polymerization of a [1]silaferrocenophane within the channels of mesoporous silica: Poly(ferrocenylsilane)-MCM-41 precursors to magnetic iron nanostructures.” Advanced Materials<\/span> 10<\/strong>(2): 144-+.<\/p>\n

      Sokolov, I., T. Jiang, et al. (1998). “Tin sulfide mesh: AFM imaging of lamellae and mesopores.” Advanced Materials<\/span> 10<\/strong>(12): 942-+.<\/p>\n

      Yang, H., G. A. Ozin, et al. (1998). “The role of defects in the formation of mesoporous silica fibers, films, and curved shapes.” Advanced Materials<\/span> 10<\/strong>(11): 883-887.<\/p>\n

      Dag, O., H. Ahari, et al. (1997). “Does microgravity influence self-assembly.” Advanced Materials<\/span> 9<\/strong>(15): 1133-&.<\/p>\n

      Ozin, G. A., H. Yang, et al. (1997). “Shell mimetics.” Advanced Materials<\/span> 9<\/strong>(8): 662-667.<\/p>\n

      Sokolov, I., H. Yang, et al. (1997). “Beyond the hemicylindrical micellar monolayer on graphite: AFM evidence for a lyotropic liquid crystal film.” Advanced Materials<\/span> 9<\/strong>(11): 917-&.<\/p>\n

      Yang, H., N. Coombs, et al. (1997). “Mesoporous silica with micrometer-scale designs.” Advanced Materials<\/span> 9<\/strong>(10): 811-&.<\/p>\n

      Bowes, C. L. and G. A. Ozin (1996). “Self-assembling frameworks: Beyond microporous oxides.” Advanced Materials<\/span> 8<\/strong>(1): 13-+.<\/p>\n

      Ozin, G. A. (1996). “Bones about skeletons.” Advanced Materials<\/span> 8<\/strong>(2): 184-&.<\/p>\n

      Ahari, H., C. L. Bowes, et al. (1995). “NANOPOROUS TIN(IV) CHALCOGENIDES – FLEXIBLE OPEN-FRAMEWORK NANOMATERIALS FOR CHEMICAL SENSING.” Advanced Materials<\/span> 7<\/strong>(4): 375-378.<\/p>\n

      Ahari, H., G. A. Ozin, et al. (1995). “SYNTHESIS AND COMPOSITIONAL TUNING OF THE BAND PROPERTIES OF ISOSTRUCTURAL TMA-SNSXSE1-X-1 NANOPOROUS MATERIALS.” Advanced Materials<\/span> 7<\/strong>(4): 370-374.<\/p>\n

      Dag, O., A. Kuperman, et al. (1995). “NANOSTRUCTURES – NEW FORMS OF LUMINESCENT SILICON.” Advanced Materials<\/span> 7<\/strong>(1): 72-78.<\/p>\n

      Enzel, P., G. S. Henderson, et al. (1995). “IMAGING THE SURFACES OF NANOPOROUS SEMICONDUCTORS BY ATOMIC-FORCE MICROSCOPY.” Advanced Materials<\/span> 7<\/strong>(1): 64-68.<\/p>\n

      Jiang, T., G. A. Ozin, et al. (1995). “NANOPOROUS TIN(IV) SULFIDES – THERMOCHEMICAL PROPERTIES.” Advanced Materials<\/span> 7<\/strong>(2): 166-170.<\/p>\n

      Khushalani, D., A. Kuperman, et al. (1995). “METAMORPHIC MATERIALS – RESTRUCTURING SILICEOUS MESOPOROUS MATERIALS.” Advanced Materials<\/span> 7<\/strong>(10): 842-&.<\/p>\n

      Oliver, S., N. Coombs, et al. (1995). “SYNTHETIC HOLLOW ALUMINOPHOSPHATE MICROSPHERES.” Advanced Materials<\/span> 7<\/strong>(11): 931-&.<\/p>\n

      Oliver, S., G. A. Ozin, et al. (1995). “SKELETONS IN THE CUPBOARD – REDISCOVERY IN SCIENCE.” Advanced Materials<\/span> 7<\/strong>(11): 948-&.<\/p>\n

      Ozin, G. A. and S. Oliver (1995). “SKELETONS IN THE BEAKER – SYNTHETIC HIERARCHICAL INORGANIC MATERIALS.” Advanced Materials<\/span> 7<\/strong>(11): 943-&.<\/p>\n

      Dag, O., A. Kuperman, et al. (1994). “GERMANIUM NANOCLUSTERS – CHEMICAL-VAPOR-DEPOSITION OF DIGERMANE IN ZEOLITE-Y AND MORDENITE.” Advanced Materials<\/span> 6<\/strong>(2): 147-150.<\/p>\n

      Jiang, T., G. A. Ozin, et al. (1994). “NANOPOROUS TIN(IV) SULFIDES – MODE OF FORMATION.” Advanced Materials<\/span> 6<\/strong>(11): 860-865.<\/p>\n

      Ozin, G. A. (1994). “THE ZEOLATE LIGAND – FROM HYDROLYSIS TO CAPPED SEMICONDUCTOR NANOCLUSTERS.” Advanced Materials<\/span> 6<\/strong>(1): 71-76.<\/p>\n

      Ozin, G. A. and M. R. Steele (1994). “TAILORING THE MOLECULAR-SIEVING ACTION OF ZEOLITE-Y WITH MOCVD-TYPE REAGENTS.” Advanced Materials<\/span> 6<\/strong>(4): 300-302.<\/p>\n

      Ozin, G. A. (1992). “NANOCHEMISTRY – SYNTHESIS IN DIMINISHING DIMENSIONS.” Advanced Materials<\/span> 4<\/strong>(10): 612-649.<\/p>\n

      Ozin, G. A. and S. Ozkar (1992). “INTRAZEOLITE TOPOTAXY.” Advanced Materials<\/span> 4<\/strong>(1): 11-22.<\/p>\n

      Stein, A., M. Meszaros, et al. (1991). “MIXED SEMICONDUCTOR COMPONENT QUANTUM SUPRALATTICES – SILVER, SODIUM CHLORO, IODO-SODALITES.” Advanced Materials<\/span> 3<\/strong>(6): 306-309.<\/p>\n","protected":false},"excerpt":{"rendered":"

      Advanced Materials is the second highest citation impact (8.191) journal specializing in materials chemistry and Advanced Functional Materials is hot on its heels (7.496). The 10 most cited articles published in Advanced Materials Author(s) Reference Title 1. G. Leising et. … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":3,"featured_media":0,"parent":32,"menu_order":5,"comment_status":"open","ping_status":"open","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/pages\/305"}],"collection":[{"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/users\/3"}],"replies":[{"embeddable":true,"href":"https:\/\/nanowizard.info\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=305"}],"version-history":[{"count":0,"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/pages\/305\/revisions"}],"up":[{"embeddable":true,"href":"https:\/\/nanowizard.info\/index.php?rest_route=\/wp\/v2\/pages\/32"}],"wp:attachment":[{"href":"https:\/\/nanowizard.info\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=305"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}