# | Title | Journal | Year | Citations |
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1 | Novel Gold Catalysts for the Oxidation of Carbon Monoxide at a Temperature far Below 0 °C | Chemistry Letters | 1987 | 2,911 |
2 | Layered Lithium Insertion Material of LiCo1/3Ni1/3Mn1/3O2for Lithium-Ion Batteries | Chemistry Letters | 2001 | 1,236 |
3 | PRODUCTION OF CO AND CH4IN ELECTROCHEMICAL REDUCTION OF CO2AT METAL ELECTRODES IN AQUEOUS HYDROGENCARBONATE SOLUTION | Chemistry Letters | 1985 | 1,138 |
4 | Overview of the Mechanistic Work on the Concerted Metallation–Deprotonation Pathway | Chemistry Letters | 2010 | 1,022 |
5 | Task-Specific Ionic Liquids | Chemistry Letters | 2004 | 997 |
6 | Carbon-doped Anatase TiO2Powders as a Visible-light Sensitive Photocatalyst | Chemistry Letters | 2003 | 903 |
7 | Photocatalytic Activity of S-doped TiO2Photocatalyst under Visible Light | Chemistry Letters | 2003 | 870 |
8 | FLUORIDE-INDUCED 1,2-ELIMINATION OFO-TRIMETHYLSILYLPHENYL TRIFLATE TO BENZYNE UNDER MILD CONDITIONS | Chemistry Letters | 1983 | 858 |
9 | Layer-by-layer Nanoarchitectonics: Invention, Innovation, and Evolution | Chemistry Letters | 2014 | 818 |
10 | OXYGEN PERMEATION THROUGH PEROVSKITE-TYPE OXIDES | Chemistry Letters | 1985 | 771 |
11 | Catalytic Direct Arylation of Heteroaromatic Compounds | Chemistry Letters | 2007 | 653 |
12 | Layered Lithium Insertion Material of LiNi1/2Mn1/2O2: A Possible Alternative to LiCoO2for Advanced Lithium-Ion Batteries | Chemistry Letters | 2001 | 640 |
13 | PRODUCTION OF METHANE AND ETHYLENE IN ELECTROCHEMICAL REDUCTION OF CARBON DIOXIDE AT COPPER ELECTRODE IN AQUEOUS HYDROGENCARBONATE SOLUTION | Chemistry Letters | 1986 | 533 |
14 | Visible Light-Induced Degradation of Methylene Blue on S-doped TiO2 | Chemistry Letters | 2003 | 515 |
15 | CONTINUOUS SILICON CARBIDE FIBER OF HIGH TENSILE STRENGTH | Chemistry Letters | 1975 | 500 |
16 | A New Ambient Pressure Organic Superconductor Based on BEDT-TTF with TCHigher than 10 K (TC=10.4 K) | Chemistry Letters | 1988 | 498 |
17 | Discovery of a Magnetic Ionic Liquid [bmim]FeCl4 | Chemistry Letters | 2004 | 493 |
18 | H2or O2Evolution from Aqueous Solutions on Layered Oxide Photocatalysts Consisting of Bi3+with 6s2Configuration and d0Transition Metal Ions | Chemistry Letters | 1999 | 475 |
19 | Application of Carbon Nanotubes to Counter Electrodes of Dye-sensitized Solar Cells | Chemistry Letters | 2003 | 467 |
20 | Advances in Iron Catalyzed Cross Coupling Reactions | Chemistry Letters | 2005 | 466 |
21 | Water-Soluble Single-Walled Carbon Nanotubes via Noncovalent Sidewall-Functionalization with a Pyrene-Carrying Ammonium Ion | Chemistry Letters | 2002 | 409 |
22 | Preparing Articles on Photocatalysis—Beyond the Illusions, Misconceptions, and Speculation | Chemistry Letters | 2008 | 408 |
23 | Construction of Z-scheme Type Heterogeneous Photocatalysis Systems for Water Splitting into H2and O2under Visible Light Irradiation | Chemistry Letters | 2004 | 404 |
24 | Strategies for the Development of Visible-light-driven Photocatalysts for Water Splitting | Chemistry Letters | 2004 | 402 |
25 | NEW ALDOL TYPE REACTION | Chemistry Letters | 1973 | 389 |
26 | Ta3N5as a Novel Visible Light-Driven Photocatalyst (λ<600 nm) | Chemistry Letters | 2002 | 377 |
27 | AN EFFICIENT METHOD FOR GLUCOSYLATION OF HYDROXY COMPOUNDS USING GLUCOPYRANOSYL FLUORIDE | Chemistry Letters | 1981 | 375 |
28 | Nickel Catalysts/N,N′-Bidentate Directing Groups: An Excellent Partnership in Directed C–H Activation Reactions | Chemistry Letters | 2015 | 370 |
29 | Mesoscopic Solar Cells for Electricity and Hydrogen Production from Sunlight | Chemistry Letters | 2005 | 358 |
30 | Crystal Structure of Fast Lithium-ion-conducting Cubic Li7La3Zr2O12 | Chemistry Letters | 2011 | 354 |
31 | Highly Luminescent Lead Bromide Perovskite Nanoparticles Synthesized with Porous Alumina Media | Chemistry Letters | 2012 | 334 |
32 | PALLADIUM-CATALYZED AROMATIC AMINATION OF ARYL BROMIDES WITHN,N-DI-ETHYLAMINO-TRIBUTYLTIN | Chemistry Letters | 1983 | 309 |
33 | Highly Conductive Room Temperature Molten Salts Based on Small Trimethylalkylammonium Cations and Bis(trifluoromethylsulfonyl)imide | Chemistry Letters | 2000 | 309 |
34 | HIGH-CONDUCTIVITY SOLID PROTON CONDUCTORS: DODECAMOLYBDOPHOSPHORIC ACID AND DODECATUNGSTOPHOSPHORIC ACID CRYSTALS | Chemistry Letters | 1979 | 302 |
35 | Formation of Titania Nanotubes with High Photo-Catalytic Activity | Chemistry Letters | 2000 | 302 |
36 | Task Specific Ionic Liquids for Cellulose Technology | Chemistry Letters | 2009 | 301 |
37 | CATALYTIC FIXATION OF CARBON DIOXIDE TO FORMIC ACID BY TRANSITION-METAL COMPLEXES UNDER MILD CONDITIONS | Chemistry Letters | 1976 | 291 |
38 | REVERSIBLE ELECTRODE REACTION OF CYTOCHROMEC | Chemistry Letters | 1977 | 289 |
39 | Reproducible Fabrication of Efficient Perovskite-based Solar Cells: X-ray Crystallographic Studies on the Formation of CH3NH3PbI3 Layers | Chemistry Letters | 2014 | 288 |
40 | Room-Temperature Molten Salt Polymers as a Matrix for Fast Ion Conduction | Chemistry Letters | 1998 | 284 |
41 | Effect of Cation Substitution on the Oxygen Semipermeability of Perovskite-type Oxides | Chemistry Letters | 1988 | 282 |
42 | Rhodium-catalyzed Oxidative Coupling/Cyclization of Benzamides with Alkynes via C–H Bond Cleavage | Chemistry Letters | 2010 | 279 |
43 | Addition and Coupling Reactions of Bis(pinacolato)diboron Mediated by CuCl in the Presence of Potassium Acetate | Chemistry Letters | 2000 | 278 |
44 | DNA Dissolves Single-walled Carbon Nanotubes in Water | Chemistry Letters | 2003 | 268 |
45 | Physicochemical Properties of Glyme–Li Salt Complexes as a New Family of Room-temperature Ionic Liquids | Chemistry Letters | 2010 | 267 |
46 | Tungsten Oxide-Based Semiconductor Sensor Highly Sensitive to NO and NO2 | Chemistry Letters | 1991 | 263 |
47 | Recent Progress in Quinoidal Singlet Biradical Molecules | Chemistry Letters | 2015 | 263 |
48 | BAND STRUCTURES OF TWO TYPES OF (BEDT-TTF)2I3 | Chemistry Letters | 1984 | 261 |
49 | Organic Radical Battery Approaching Practical Use | Chemistry Letters | 2011 | 259 |
50 | Formation of Uniform Mesopores in ZSM-5 Zeolite through Treatment in Alkaline Solution | Chemistry Letters | 2000 | 257 |