Advanced zeolite materials science

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[2]  T. Mallouk,et al.  Electrochemistry of metalloporphyrins and viologens at zeolite Y-modified electrodes: evidence for electron trapping by monomolecular porphyrin layers , 1988 .

[3]  Henryk Temkin,et al.  Low‐temperature photoluminescence from InGaAs/InP quantum wires and boxes , 1987 .

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[5]  G. Stucky,et al.  Structure and optical properties of cadmium sulfide superclusters in zeolite hosts , 1989 .

[6]  G. Stucky,et al.  Inclusion tuning of nonlinear optical materials: switching the SHG of p-nitroaniline and 2-methyl-p-nitroaniline with molecular sieve hosts , 1988 .

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[12]  V. Narayanamurti Artificially Structured Thin-Film Materials and Interfaces , 1987, Science.

[13]  M. Reed,et al.  Microstructure fabrication and transport through quantum dots , 1988 .

[14]  D. Rolison,et al.  Electrogenerated coatings containing zeolites , 1984 .

[15]  K. Ploog Microscopical Structuring of Solids by Molecular Beam Epitaxy—Spatially Resolved Materials Synthesis , 1988 .

[16]  Ying Wang,et al.  Photoluminescence and relaxation dynamics of cadmium sulfide superclusters in zeolites , 1988 .

[17]  G. Ozin,et al.  Direct Probe Fourier Transform Far-Infrared Spectroscopy of Metal Atoms, Metal Ions, and Metal Clusters in Zeolites , 1985 .

[18]  M. Thackeray,et al.  An investigation of the electrochemical performance of a silver/zeolite 4AI2 solid-state cell , 1982 .

[19]  M. Fleischmann,et al.  Electrochemical behavior of dispersions of spherical ultramicroelectrodes. 1. Theoretical considerations , 1985 .

[20]  G. Ozin,et al.  Laser-induced fluorescence, far-infrared spectroscopy, and luminescence quenching of europium zeolite Y: site-selective probes of extraframework cations , 1988 .

[21]  J. Devynck,et al.  Zeolite-porphyrin modified electrodes , 1985 .

[22]  Norman Herron,et al.  Optical properties of CdS and PbS clusters encapsulated in zeolites , 1987 .

[23]  Louis E. Brus,et al.  Electronic wave functions in semiconductor clusters: experiment and theory , 1986 .

[24]  T. Mallouk,et al.  Long-lived light-induced charge separation in a zeolite L-based molecular triad , 1988 .

[25]  John Meurig Thomas Uniform Heterogeneous Catalysts: The Role of Solid‐State Chemistry in their Development and Design , 1988 .

[26]  Debra R. Rolison,et al.  Electrochemical behavior of dispersions of spherical ultramicroelectrodes , 1986 .

[27]  K. E. Creasy,et al.  Carbon composite electrodes containing alumina, layered double hydroxides, and zeolites , 1988 .

[28]  K. Ploog Mikroskopische Strukturierung von Festkörpern durch Molekularstrahl-Epitaxie — ortsaufgelöste Materialsynthese† , 1988 .

[29]  T. Ohsuna,et al.  Isolating individual chains of selenium by incorporation into the channels of a zeolite , 1987, Nature.

[30]  T. Mallouk,et al.  Self-assembling trimolecular redox chains at zeolite Y modified electrodes , 1989 .

[31]  R. Schoonheydt,et al.  Surface and solid state chemistry of zeolites , 1985 .

[32]  C. Baerlocher Zeolite structure refinements using powder data , 1986 .

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[35]  G. Stucky,et al.  Solid-state silicon-29 NMR and infrared studies of the reactions of mono- and polyfunctional silanes with zeolite Y surfaces , 1988 .

[36]  R. M. Barrer,et al.  Hydrothermal Chemistry of Zeolites , 1982 .

[37]  J. M. Thomas Uniforme heterogene Katalysatoren – die Rolle der Festkörperchemie bei der Katalysatorentwicklung , 1988 .

[38]  L. S. Agroskin,et al.  The absorption spectra of single selenium and tellurium chains in dielectric matrix channels , 1983 .

[39]  T. Mallouk,et al.  Photochemical hydrogen evolution via singlet-state electron-transfer quenching of zinc tetra(N-methyl-4-pyridyl)porphyrin cations in a zeolite L based system , 1987 .

[40]  K. E. Creasy,et al.  Simplex optimization of electroreduction of oxygen mediated by methyl viologen supported on zeolite-modified carbon paste electrode , 1988 .