| 1 | Regulating pore structure and pseudo-graphitic phase of hard carbon anode towards enhanced sodium storage performance | 7.5 | 4 | Citations (PDF) |
| 2 | Electrosynthesis of hydroxylamine from earth-abundant small molecules | 7.0 | 0 | Citations (PDF) |
| 3 | Membrane-free sequential paired electrosynthesis of 1,4-hydroquinone from phenol over a self-supported electrocatalytic electrode | 13.7 | 4 | Citations (PDF) |
| 4 | Improving CO2 electroconversion by customizing the hydroxyl microenvironment around a semi-open Co-N2O2 configuration | 9.9 | 0 | Citations (PDF) |
| 5 | Ordered macroporous superstructure of defective carbon adorned with tiny cobalt sulfide for selective electrocatalytic hydrogenation of cinnamaldehyde | 20.5 | 9 | Citations (PDF) |
| 6 | From [Ba3S][GeS4] to [Ba3CO3][MS4] (M = Ge, Sn): Enhancing optical anisotropy in IR birefringent crystals via functional group implantation | 7.0 | 8 | Citations (PDF) |
| 7 | Fluorescent Dye‐Based Chiral Crystalline Organic Salt Networks for Circularly Polarized Luminescence | 11.5 | 2 | Citations (PDF) |
| 8 | Exploring new horizons in mid-to-far infrared nonlinear optical crystals: the significant potential of trigonal pyramidal [TeS3]2− functional units | 7.1 | 11 | Citations (PDF) |
| 9 | Isovalent cation substitution drives structural transformation and infrared nonlinear optical activity in Eu-based chalcogenides | 6.3 | 6 | Citations (PDF) |
| 10 | Manganese dioxide cathode materials for aqueous zinc ion battery: Development, challenges and strategies | 19.5 | 29 | Citations (PDF) |
| 11 | Low-Cost, Facile, and Scalable Manufacturing of Single-Molecule-Integrated Catalytic Electrodes | 15.3 | 9 | Citations (PDF) |
| 12 | Ultrafine cucurbit[n]uril (n = 5–8)–Ni nanocomposites as highly efficient catalysts for the electrocatalytic oxygen evolution reaction | 6.3 | 0 | Citations (PDF) |
| 13 | Discovering Pseudo-Supertetrahedral Functional Units in Salt-Inclusion Nonlinear Optical Material [Ba22(SO4)5][Zn14Ga18S58] 2025, 7, 1512-1519 | | 7 | Citations (PDF) |
| 14 | Rapidly Constructing Meter‐Scale Single‐Molecule Integrated Catalytic Electrode with Hydrophobic Microenvironment for pH‐Universal CO
2
Electroreduction | 17.0 | 6 | Citations (PDF) |
| 15 | Electrocatalytic N–C–N coupling over a hierarchically ordered open single-atom superstructure toward organonitrogen synthesis | 13.7 | 12 | Citations (PDF) |
| 16 | Zero-Dimensional Oxyselenide Ba<sub>12</sub>[(Ga<sub>2</sub>OSe<sub>5</sub>)<sub>3</sub>(Si<sub>2</sub>O<sub>7</sub>)]: Enhanced Optical Anisotropy through Heteroanionic Engineering | 4.6 | 3 | Citations (PDF) |
| 17 | Nonbonding Electron Inversion‐Driven Structural Engineering: Synergistic Enhancement of Linear and Nonlinear Optical Properties | 1.4 | 0 | Citations (PDF) |
| 18 | Nonbonding Electron Inversion‐Driven Structural Engineering: Synergistic Enhancement of Linear and Nonlinear Optical Properties | 14.4 | 8 | Citations (PDF) |
| 19 | Recent progress in structural design strategies of high-birefringence optical crystals | 23.1 | 27 | Citations (PDF) |
| 20 | A comparative study proposing performance benchmarks for convoying industrial CO2-to-formate electroconversion | 4.5 | 2 | Citations (PDF) |
| 21 | Allying cobalt nanoclusters with carbon nanofibers for selectively electrocatalytic hydrogenation of unsaturated aldehyde with water as hydrogen source | 7.2 | 0 | Citations (PDF) |
| 22 | Modular Synchronous Synthesis of Amides and α‐Ketoamides Realized by Matching Electrolysis‐Paired Tandems | 14.4 | 5 | Citations (PDF) |
| 23 | Modular Synchronous Synthesis of Amides and α‐Ketoamides Realized by Matching Electrolysis‐Paired Tandems | 1.4 | 0 | Citations (PDF) |
| 24 | [TeSeS
2
]
2−
: The First Heterotriple‐Chalcogenide Motifs Decode Giant Mid‐Far Infrared Birefringence | 14.4 | 5 | Citations (PDF) |
| 25 | [TeSeS
2
]
2−
: The First Heterotriple‐Chalcogenide Motifs Decode Giant Mid‐Far Infrared Birefringence | 1.4 | 1 | Citations (PDF) |
| 26 | Self‐supported Mo and Zn co‐doped CoP nanosheet array electrode for large‐current‐density hydrogen evolution | 11.2 | 3 | Citations (PDF) |
| 27 | Static Internal Electric Field in Heterojunctions Composed of O–C<sub><b>3</b></sub>N<sub><b>4</b></sub> Nanosheets Decorated with NH<sub><b>2</b></sub>-MIL-101(Cr) Nanoparticles for Photocatalytic Hydrogen Evolution | 5.3 | 0 | Citations (PDF) |
| 28 | Engineering hierarchical quaternary superstructure of an integrated MOF-derived electrode for boosting urea electrooxidation assisted water electrolysis | 12.4 | 29 | Citations (PDF) |
| 29 | Breaking Through the Trade‐Off Between Wide Band Gap and Large SHG Coefficient in Mercury‐Based Chalcogenides for IR Nonlinear Optical Application | 11.5 | 34 | Citations (PDF) |
| 30 | Customizing Highly Asymmetrical Coordination Microenvironment into P‐Block Metal Single‐Atom Sites to Boost Electrocatalytic CO2 Reduction | 17.0 | 38 | Citations (PDF) |
| 31 | Regulating the key performance parameters for Hg-based IR NLO chalcogenides via bandgap engineering strategy | 7.5 | 19 | Citations (PDF) |
| 32 | Ga-based IR nonlinear optical materials: Synthesis, structures, and properties | 23.1 | 46 | Citations (PDF) |
| 33 | Self‐supported bimetallic array superstructures for high‐performance coupling electrosynthesis of formate and adipate | 18.0 | 22 | Citations (PDF) |
| 34 | Two-dimensional layered MOF nanosheets with multiple binding sites for selective detection and removal of Fe(III) ions | 8.8 | 22 | Citations (PDF) |
| 35 | Covalent Phenanthroline‐Porphyrin Polymer for Aminocarbonylation through Electro/Thermocatalytic Tandem Processes: Extending Chemical Valorization of CO2 | 17.0 | 11 | Citations (PDF) |
| 36 | Partial substitution with a significant effect: coexistence of a wide band gap and large birefringence in the oxychalcogenide AEGe2O4Se (AE = Sr and Ba) | 6.3 | 14 | Citations (PDF) |
| 37 | Ba10In2Mn11Si3O12S18: First Hexanary Oxychalcogenide Containing an Infrequent Three-Dimensional Noncentrosysmmetric Framework | 4.6 | 8 | Citations (PDF) |
| 38 | Structure-induced interfacial activation convoying the CO-relayed conversion of CO2 to dimethyl carbonate | 12.0 | 8 | Citations (PDF) |
| 39 | Rare-earth-based chalcogenides and their derivatives: an encouraging IR nonlinear optical material candidate | 7.1 | 46 | Citations (PDF) |
| 40 | Tunable Circularly Polarized Luminescence by Confining Dye Molecules within Chiral Layered Metal–Organic Framework | 7.0 | 17 | Citations (PDF) |
| 41 | The relation between the atomic mass ratio and quartic anharmonicity in alkali metal hydrides | 6.1 | 8 | Citations (PDF) |
| 42 | Wide-wavelength-tunable operation of Tm:GYAP disordered crystal laser with birefringence filtering | 2.9 | 1 | Citations (PDF) |
| 43 | Hierarchically Ordered Pore Engineering of Metal–Organic Framework‐Based Materials for Electrocatalysis | 24.5 | 48 | Citations (PDF) |
| 44 | The first Hg-based oxychalcogenide Sr2HgGe2OS6: Achieving balanced IR nonlinear optical properties through synergistic cation and anion substitution | 6.1 | 21 | Citations (PDF) |
| 45 | Value‐Added Cascade Synthesis Mediated by Paired‐Electrolysis Using an Ultrathin Microenvironment‐Inbuilt Metalized Covalent Organic Framework Heterojunction | 22.5 | 24 | Citations (PDF) |
| 46 | RbPbPS4: a promising IR nonlinear optical material achieved by lone-pair-cation-substitution-induced structure transformation | 6.3 | 14 | Citations (PDF) |
| 47 | Recent advances and future perspectives on rare-earth-based nonlinear optical materials with π-conjugated [XO3] (X = B, C, N) units | 23.1 | 41 | Citations (PDF) |
| 48 | Screening Strategy Identifies an Overlooked Deep‐Ultraviolet Transparent Nonlinear Optical Crystal | 14.4 | 30 | Citations (PDF) |
| 49 | Screening Strategy Identifies an Overlooked Deep‐Ultraviolet Transparent Nonlinear Optical Crystal | 1.4 | 1 | Citations (PDF) |
| 50 | Realizing Excellent Infrared Nonlinear Optical Performance in Eu-Based Chalcogenides via Rational Cross Substitution Strategy | 8.0 | 17 | Citations (PDF) |
| 51 | Selenic Acid Etching Assisted Atomic Engineering for Designing Metal-Semimetal Dual Single-Atom Catalysts for Enhanced CO2 Electroreduction | 15.3 | 22 | Citations (PDF) |
| 52 | Balanced IR Nonlinear Optical Performance Achieved by Cation–Anion Module Cosubstitution in V-Based Salt-Inclusion Oxychalcogenides | 6.7 | 13 | Citations (PDF) |
| 53 | Heterointerface engineering of Ru/RuS2 on N/S-doped hollow mesoporous carbon for promoting alkaline hydrogen evolution | 7.5 | 16 | Citations (PDF) |
| 54 | Simple yet extraordinary: Super-polyhedra-built 3D chalcogenide framework of Cs5Ga9S16 with excellent infrared nonlinear optical performance | 7.5 | 24 | Citations (PDF) |
| 55 | Convergent paired electrosynthesis of dimethyl carbonate from carbon dioxide enabled by designing the superstructure of axial oxygen coordinated nickel single-atom catalysts | 30.8 | 117 | Citations (PDF) |
| 56 | Ba5Ga2SiO4S6: a Phase-Matching Nonlinear Optical Oxychalcogenide Design via Structural Regulation Originated from Heteroanion Introduction | 4.6 | 24 | Citations (PDF) |
| 57 | Recent progress in the design of IR nonlinear optical materials by partial chemical substitution: Structural evolution and performance optimization | 23.1 | 101 | Citations (PDF) |
| 58 | Directional editing of self-supported nanoarray electrode for adaptive paired-electrolysis | 9.9 | 9 | Citations (PDF) |
| 59 | Hierarchically ordered porous superstructure embedded with readily accessible atomic pair sites for enhanced CO2 electroreduction | 20.5 | 50 | Citations (PDF) |
| 60 | Si Doping-Induced Electronic Structure Regulation of Single-Atom Fe Sites for Boosted CO
2
Electroreduction at Low Overpotentials | 8.0 | 69 | Citations (PDF) |
| 61 | Rational Design of a Rare‐Earth Oxychalcogenide Nd3[Ga3O3S3][Ge2O7] with Superior Infrared Nonlinear Optical Performance | 11.5 | 60 | Citations (PDF) |
| 62 | Introduction of Multicomponent Dyes into 2D MOFs: A Strategy to Fabricate White Light-Emitting MOF Composite Nanosheets | 8.0 | 37 | Citations (PDF) |
| 63 | Melilite oxychalcogenide Sr2FeGe2OS6: a phase-matching IR nonlinear optical material realized by isomorphous substitution | 6.3 | 30 | Citations (PDF) |
| 64 | Controlled synthesis of MOF-derived hollow and yolk–shell nanocages for improved water oxidation and selective ethylene glycol reformation | 32.1 | 117 | Citations (PDF) |
| 65 | Rational Design and Assembly of Two-Dimensional Layered Metal–Organic Frameworks: Structure, Morphology, Fluorescence Regulation, and High Iodine Adsorption | 3.4 | 4 | Citations (PDF) |
| 66 | Electrochemical semi-sacrificial growth of a self-supporting MOF-based electrode for urea electrooxidation-coupled water electrolysis | 2.4 | 6 | Citations (PDF) |
| 67 | A unique [Sb6O2S13]12−finite chain in oxychalcogenide Ba6Sb6O2S13leading to ultra-low thermal conductivity and giant birefringence | 6.3 | 9 | Citations (PDF) |
| 68 | Ultrathin Conductive Bithiazole‐Based Covalent Organic Framework Nanosheets for Highly Efficient Electrochemical Biosensing | 17.0 | 54 | Citations (PDF) |
| 69 | Recent advances in IR nonlinear optical chalcogenides with well-balanced comprehensive performance | 6.1 | 41 | Citations (PDF) |
| 70 | An overview of Mg-based IR nonlinear optical materials | 6.3 | 15 | Citations (PDF) |
| 71 | MOF-derived MoC-Fe heterojunctions encapsulated in N-doped carbon nanotubes for water splitting | 12.0 | 36 | Citations (PDF) |
| 72 | Heteroanion-introduction-driven birefringence enhancement in oxychalcogenide Ba3MIIGe3O2S8 (MII = Mn, Cd) | 6.3 | 17 | Citations (PDF) |
| 73 | Engineering Electronic and Morphological Structure of Metal–Organic-Framework-Derived Iron-Doped Ni2P/NC Hollow Polyhedrons for Enhanced Oxygen Evolution | 4.6 | 19 | Citations (PDF) |
| 74 | Paired electrosynthesis design strategy for sustainable CO2 conversion and product upgrading | 19.5 | 27 | Citations (PDF) |
| 75 | Killing Two Birds with One Stone: Selective Oxidation of Small Organic Molecule as Anodic Reaction to Boost CO2 Electrolysis | 11.0 | 43 | Citations (PDF) |
| 76 | Integrated 3D Open Network of Interconnected Bismuthene Arrays for Energy‐Efficient and Electrosynthesis‐Assisted Electrocatalytic CO2 Reduction | 11.5 | 64 | Citations (PDF) |
| 77 | Quaternary Noncentrosymmetric Rare-Earth Sulfides Ba4RE2Cd3S10 (RE = Sm, Gd, or Tb): A Joint Experimental and Theoretical Investigation | 4.6 | 14 | Citations (PDF) |
| 78 | Phase Matchability Transformation in the Infrared Nonlinear Optical Materials with Diamond‐Like Frameworks | 7.0 | 49 | Citations (PDF) |
| 79 | Ultrathin two-dimensional metallenes for heterogeneous catalysis | 9.7 | 76 | Citations (PDF) |
| 80 | Rational Design of Metal–Organic Framework‐Based Materials for Photocatalytic CO2 Reduction | 5.5 | 59 | Citations (PDF) |
| 81 | Enhanced Second-Harmonic-Generation Efficiency and Birefringence in Melillite Oxychalcogenides Sr2MGe2OS6 (M = Mn, Zn, and Cd) | 6.7 | 89 | Citations (PDF) |
| 82 | New insight into heterointerfacial effect for heterogenized metallomacrocycle catalysts in executing electrocatalytic CO2 reduction | 20.5 | 29 | Citations (PDF) |
| 83 | Surveying the electrocatalytic CO2-to-CO activity of heterogenized metallomacrocycles via accurate clipping at the molecular level | 8.6 | 24 | Citations (PDF) |
| 84 | Reconstruction of Ultrahigh‐Aspect‐Ratio Crystalline Bismuth–Organic Hybrid Nanobelts for Selective Electrocatalytic CO2 Reduction to Formate | 17.0 | 93 | Citations (PDF) |
| 85 | Two isomeric metal–organic frameworks bearing stilbene moieties for highly volatile iodine uptake | 6.3 | 27 | Citations (PDF) |
| 86 | RbBiP2S6: A Promising IR Nonlinear Optical Material with a Giant Second-Harmonic Generation Response Designed by Aliovalent Substitution 2022, 4, 1264-1269 | | 70 | Citations (PDF) |
| 87 | Ordered macroporous superstructure of bifunctional cobalt phosphide with heteroatomic modification for paired hydrogen production and polyethylene terephthalate plastic recycling | 20.5 | 108 | Citations (PDF) |
| 88 | Enzyme‐Inspired Microenvironment Engineering of a Single‐Molecular Heterojunction for Promoting Concerted Electrochemical CO2 Reduction | 24.5 | 73 | Citations (PDF) |
| 89 | A comprehensive review on metal chalcogenides with three-dimensional frameworks for infrared nonlinear optical applications | 23.1 | 96 | Citations (PDF) |
| 90 | Value‐added formate production from selective ethylene glycol oxidation based on cost‐effective self‐supported MOF nanosheet arrays | 11.2 | 52 | Citations (PDF) |
| 91 | Phase matching achieved by isomorphous substitution in IR nonlinear optical material Ba2SnSSi2O7with an undiscovered [SnO4S] functional motif | 6.1 | 43 | Citations (PDF) |
| 92 | Rational designviadual-site aliovalent substitution leads to an outstanding IR nonlinear optical material with well-balanced comprehensive properties | 7.1 | 59 | Citations (PDF) |
| 93 | Oxychalcogenides as Promising Ultraviolet Nonlinear Optical Candidates: Experimental and Theoretical Studies of AEGeOS2(AE = Sr and Ba) | 4.6 | 23 | Citations (PDF) |
| 94 | Few-atom-layer metallene quantum dots toward CO2 electroreduction at ampere-level current density and Zn-CO2 battery | 9.7 | 25 | Citations (PDF) |
| 95 | Fabrication of doubly charged anion-exchange membranes for enhancing hydroxide conductivity | 2.3 | 11 | Citations (PDF) |
| 96 | Fluorine-tuned single-atom catalysts with dense surface Ni-N4 sites on ultrathin carbon nanosheets for efficient CO2 electroreduction | 20.5 | 163 | Citations (PDF) |
| 97 | Facile construction of self-supported Fe-doped Ni3S2 nanoparticle arrays for the ultralow-overpotential oxygen evolution reaction | 5.0 | 30 | Citations (PDF) |
| 98 | Bifunctional single-molecular heterojunction enables completely selective CO2-to-CO conversion integrated with oxidative 3D nano-polymerization | 30.8 | 132 | Citations (PDF) |
| 99 | Engineering a conductive network of atomically thin bismuthene with rich defects enables CO2 reduction to formate with industry-compatible current densities and stability | 30.8 | 204 | Citations (PDF) |
| 100 | A combined bottom-up and top-down strategy to fabricate lanthanide hydrate@2D MOF composite nanosheets for direct white light emission | 5.1 | 25 | Citations (PDF) |
| 101 | Three-dimensional porous copper-decorated bismuth-based nanofoam for boosting the electrochemical reduction of CO2 to formate | 6.3 | 23 | Citations (PDF) |
| 102 | Ba2Ge2Te5: a ternary NLO-active telluride with unusual one-dimensional helical chains and giant second harmonic-generation tensors | 6.3 | 30 | Citations (PDF) |
| 103 | Quaternary Chalcohalides CdSnSX2 (X = Cl or Br) with Neutral Layers: Syntheses, Structures, and Photocatalytic Properties | 4.6 | 14 | Citations (PDF) |
| 104 | Ordered Macroporous Superstructure of Nitrogen‐Doped Nanoporous Carbon Implanted with Ultrafine Ru Nanoclusters for Efficient pH‐Universal Hydrogen Evolution Reaction | 24.5 | 314 | Citations (PDF) |
| 105 | Structural Modulation from Cu3PS4 to Cu5Zn0.5P2S8: Single-Site Aliovalent-Substitution-Driven Second-Harmonic-Generation Enhancement | 4.6 | 22 | Citations (PDF) |
| 106 | Hydrangea-like Superstructured Micro/Nanoreactor of Topotactically Converted Ultrathin Bismuth Nanosheets for Highly Active CO2 Electroreduction to Formate | 8.0 | 66 | Citations (PDF) |
| 107 | In Situ Bismuth Nanosheet Assembly for Highly Selective Electrocatalytic CO2 Reduction to Formate | 3.0 | 20 | Citations (PDF) |
| 108 | Divergent Paths, Same Goal: A Pair‐Electrosynthesis Tactic for Cost‐Efficient and Exclusive Formate Production by Metal–Organic‐Framework‐Derived 2D Electrocatalysts | 24.5 | 211 | Citations (PDF) |
| 109 | Atomically Structural Regulations of Carbon‐Based Single‐Atom Catalysts for Electrochemical CO2Reduction | 9.0 | 80 | Citations (PDF) |
| 110 | Electrically Conductive Metal–Organic Frameworks for Electrocatalytic Applications | 5.5 | 57 | Citations (PDF) |
| 111 | AZn4Ga5Se12 (A = K, Rb, or Cs): Infrared Nonlinear Optical Materials with Simultaneous Large Second Harmonic Generation Responses and High Laser-Induced Damage Thresholds | 4.6 | 28 | Citations (PDF) |
| 112 | Design principles and direct applications of cobalt-based metal-organic frameworks for electrochemical energy storage | 23.1 | 91 | Citations (PDF) |
| 113 | Water-Stable Two-Dimensional Metal–Organic Framework Nanostructures for Fe3+ Ions Detection | 3.4 | 19 | Citations (PDF) |
| 114 | The Rise of Infrared Nonlinear Optical Pnictides: Advances and Outlooks | 3.0 | 32 | Citations (PDF) |
| 115 | Nano-engineering of Ru-based hierarchical porous nanoreactors for highly efficient pH-universal overall water splitting | 20.5 | 80 | Citations (PDF) |
| 116 | M2As2Q5 (M = Ba, Pb; Q = S, Se): a source of infrared nonlinear optical materials with excellent overall performance activated by multiple discrete arsenate anions | 5.1 | 66 | Citations (PDF) |
| 117 | Hierarchical Cu2S hollow nanowire arrays for highly efficient hydrogen evolution reaction | 3.9 | 11 | Citations (PDF) |
| 118 | Recent progress in oxychalcogenides as IR nonlinear optical materials | 3.0 | 74 | Citations (PDF) |
| 119 | Porphyrin framework-derived N-doped porous carbon-confined Ru for NH3BH3 methanolysis: the more pyridinic-N, the better | 9.3 | 89 | Citations (PDF) |
| 120 | Electron-withdrawing anion intercalation and surface sulfurization of NiFe-layered double hydroxide nanoflowers enabling superior oxygen evolution performance | 6.3 | 28 | Citations (PDF) |
| 121 | Rational design of infrared nonlinear optical chalcogenides by chemical substitution | 23.1 | 258 | Citations (PDF) |
| 122 | Remarkable electrocatalytic CO2 reduction with ultrahigh CO/H2 ratio over single-molecularly immobilized pyrrolidinonyl nickel phthalocyanine | 20.5 | 97 | Citations (PDF) |
| 123 | MOF-based atomically dispersed metal catalysts: Recent progress towards novel atomic configurations and electrocatalytic applications | 23.1 | 134 | Citations (PDF) |
| 124 | Efficient Carbon Dioxide Electroreduction over Ultrathin Covalent Organic Framework Nanolayers with Isolated Cobalt Porphyrin Units | 8.0 | 101 | Citations (PDF) |
| 125 | Salt-Inclusion Chalcogenide [Ba4Cl2][ZnGa4S10]: Rational Design of an IR Nonlinear Optical Material with Superior Comprehensive Performance Derived from AgGaS2 | 6.7 | 119 | Citations (PDF) |
| 126 | Salt-inclusion chalcogenides: an emerging class of IR nonlinear optical materials | 3.0 | 50 | Citations (PDF) |
| 127 | Metal–Organic Layers Leading to Atomically Thin Bismuthene for Efficient Carbon Dioxide Electroreduction to Liquid Fuel | 1.4 | 62 | Citations (PDF) |
| 128 | Metal–Organic Layers Leading to Atomically Thin Bismuthene for Efficient Carbon Dioxide Electroreduction to Liquid Fuel | 14.4 | 390 | Citations (PDF) |
| 129 | Coordination tailoring of water-labile 3D MOFs to fabricate ultrathin 2D MOF nanosheets | 5.0 | 53 | Citations (PDF) |
| 130 | Twofold Interpenetrated 2D MOF Nanosheets Generated by an Instant In Situ Exfoliation Method: Morphology Control and Fluorescent Sensing | 4.0 | 45 | Citations (PDF) |
| 131 | Partial Isovalent Anion Substitution to Access Remarkable Second-Harmonic Generation Response: A Generic and Effective Strategy for Design of Infrared Nonlinear Optical Materials | 6.7 | 108 | Citations (PDF) |
| 132 | Metal–organic framework-derived mesoporous carbon nanoframes embedded with atomically dispersed Fe–N active sites for efficient bifunctional oxygen and carbon dioxide electroreduction | 20.5 | 220 | Citations (PDF) |
| 133 | Ligand-assisted capping growth of self-supporting ultrathin FeNi-LDH nanosheet arrays with atomically dispersed chromium atoms for efficient electrocatalytic water oxidation | 5.0 | 47 | Citations (PDF) |
| 134 | HgCuPS4: An Exceptional Infrared Nonlinear Optical Material with Defect Diamond-like Structure | 6.7 | 132 | Citations (PDF) |
| 135 | MOF-based materials for photo- and electrocatalytic CO2 reduction | 19.5 | 267 | Citations (PDF) |
| 136 | Covalent organic polymer assisted synthesis of bimetallic electrocatalysts with multicomponent active dopants for efficient oxygen evolution reaction | 5.3 | 13 | Citations (PDF) |
| 137 | Inlaying Ultrathin Bimetallic MOF Nanosheets into 3D Ordered Macroporous Hydroxide for Superior Electrocatalytic Oxygen Evolution | 11.5 | 88 | Citations (PDF) |
| 138 | Sn<sub>2</sub>Ga<sub>2</sub>S<sub>5</sub>: A Polar Semiconductor with Exceptional Infrared Nonlinear Optical Properties Originating from the Combined Effect of Mixed Asymmetric Building Motifs | 6.7 | 76 | Citations (PDF) |
| 139 | Metal–Organic Frameworks Based on a Bent Triazole Dicarboxylic Acid: Magnetic Behaviors and Selective Luminescence Sensing Properties | 3.4 | 26 | Citations (PDF) |
| 140 | An unprecedented pentanary chalcohalide with Mn atoms in two chemical environments: unique bonding characteristics and magnetic properties | 3.4 | 28 | Citations (PDF) |
| 141 | Quaternary semiconductor Ba<sub>8</sub>Zn<sub>4</sub>Ga<sub>2</sub>S<sub>15</sub> featuring unique one-dimensional chains and exhibiting desirable yellow emission | 3.4 | 25 | Citations (PDF) |
| 142 | [(Ba<sub>19</sub>Cl<sub>4</sub>)(Ga<sub>6</sub>Si<sub>12</sub>O<sub>42</sub>S<sub>8</sub>)]: a Two-Dimensional Wide-Band-Gap Layered Oxysulfide with Mixed-Anion Chemical Bonding and Photocurrent Response | 4.6 | 19 | Citations (PDF) |
| 143 | Impressive second harmonic generation response in a novel phase-matchable NLO-active MOF derived from achiral precursors | 5.1 | 36 | Citations (PDF) |
| 144 | Triazine‐Cored Lanthanide‐Based Metal–Organic Frameworks Featuring Unique Water Chains and Strong Characteristic Emissions | 3.0 | 4 | Citations (PDF) |
| 145 | Centric-to-acentric structure transformation induced by a stereochemically active lone pair: a new insight for design of IR nonlinear optical materials | 5.1 | 87 | Citations (PDF) |
| 146 | An effective amino acid-assisted growth of ultrafine palladium nanocatalysts toward superior synergistic catalysis for hydrogen generation from formic acid | 6.3 | 22 | Citations (PDF) |
| 147 | Combined experimental and theoretical investigations of Ba<sub>3</sub>GaS<sub>4</sub>I: interesting structural transformation originated from halogen substitution | 3.0 | 14 | Citations (PDF) |
| 148 | Semisacrificial Template Growth of Self‐Supporting MOF Nanocomposite Electrode for Efficient Electrocatalytic Water Oxidation | 17.0 | 267 | Citations (PDF) |
| 149 | A solvent-switched in situ confinement approach for immobilizing highly-active ultrafine palladium nanoparticles: boosting catalytic hydrogen evolution | 9.3 | 69 | Citations (PDF) |
| 150 | Sr5ZnGa6S15: a new quaternary non-centrosymmetric semiconductor with a 3D framework structure displaying excellent nonlinear optical performance | 6.3 | 59 | Citations (PDF) |
| 151 | Quasi-MOF: Exposing Inorganic Nodes to Guest Metal Nanoparticles for Drastically Enhanced Catalytic Activity | 16.6 | 234 | Citations (PDF) |
| 152 | Fabrication of nitrogen and sulfur co-doped hollow cellular carbon nanocapsules as efficient electrode materials for energy storage | 18.1 | 96 | Citations (PDF) |
| 153 | Metal–Organic Framework Templated Porous Carbon‐Metal Oxide/Reduced Graphene Oxide as Superior Support of Bimetallic Nanoparticles for Efficient Hydrogen Generation from Formic Acid | 22.5 | 120 | Citations (PDF) |
| 154 | Recent Progress in Asymmetric Catalysis and Chromatographic Separation by Chiral Metal–Organic Frameworks | 3.7 | 83 | Citations (PDF) |
| 155 | Ternary Mixed-Metal Cd<sub>4</sub>GeS<sub>6</sub>: Remarkable Nonlinear-Optical Properties Based on a Tetrahedral-Stacking Framework | 4.6 | 38 | Citations (PDF) |
| 156 | Pore surface engineering of metal–organic frameworks for heterogeneous catalysis | 23.1 | 206 | Citations (PDF) |
| 157 | Synthesis of Highly Active Sub‐Nanometer Pt@Rh Core–Shell Nanocatalyst via a Photochemical Route: Porous Titania Nanoplates as a Superior Photoactive Support | 11.5 | 42 | Citations (PDF) |
| 158 | Metal-Organic Frameworks for Energy Applications | 16.6 | 1,116 | Citations (PDF) |
| 159 | Atomically Dispersed Fe/N-Doped Hierarchical Carbon Architectures Derived from a Metal–Organic Framework Composite for Extremely Efficient Electrocatalysis | 17.0 | 314 | Citations (PDF) |
| 160 | From Ru nanoparticle-encapsulated metal–organic frameworks to highly catalytically active Cu/Ru nanoparticle-embedded porous carbon | 9.3 | 94 | Citations (PDF) |
| 161 | Surface‐Amine‐Implanting Approach for Catalyst Functionalization: Prominently Enhancing Catalytic Hydrogen Generation from Formic Acid | 1.8 | 22 | Citations (PDF) |
| 162 | Two new phases in the ternary RE–Ga–S systems with the unique interlinkage of GaS4building units: synthesis, structure, and properties | 3.0 | 16 | Citations (PDF) |
| 163 | Introduction of Red‐Green‐Blue Fluorescent Dyes into a Metal–Organic Framework for Tunable White Light Emission | 24.5 | 261 | Citations (PDF) |
| 164 | Toward a molecular design of porous carbon materials | 14.0 | 254 | Citations (PDF) |
| 165 | Nanomaterials derived from metal–organic frameworks | 77.9 | 1,151 | Citations (PDF) |
| 166 | Immobilization of Ultrafine Metal Nanoparticles to High-Surface-Area Materials and Their Catalytic Applications | 16.6 | 471 | Citations (PDF) |
| 167 | Monodispersed CuCo Nanoparticles Supported on Diamine‐Functionalized Graphene as a Non‐noble Metal Catalyst for Hydrolytic Dehydrogenation of Ammonia Borane | 2.5 | 49 | Citations (PDF) |
| 168 | Metal‐Organic Framework‐Derived Honeycomb‐Like Open Porous Nanostructures as Precious‐Metal‐Free Catalysts for Highly Efficient Oxygen Electroreduction | 24.5 | 451 | Citations (PDF) |
| 169 | Immobilizing Highly Catalytically Active Noble Metal Nanoparticles on Reduced Graphene Oxide: A Non-Noble Metal Sacrificial Approach | 15.0 | 229 | Citations (PDF) |
| 170 | Insight into luminescence enhancement of coordinated water-containing lanthanide metal–organic frameworks by guest molecules | 3.0 | 15 | Citations (PDF) |
| 171 | Diamine-Alkalized Reduced Graphene Oxide: Immobilization of Sub-2 nm Palladium Nanoparticles and Optimization of Catalytic Activity for Dehydrogenation of Formic Acid | 12.4 | 198 | Citations (PDF) |
| 172 | Pd nanoparticles supported on hierarchically porous carbons derived from assembled nanoparticles of a zeolitic imidazolate framework (ZIF-8) for methanol electrooxidation | 3.4 | 74 | Citations (PDF) |
| 173 | Monodispersed PtNi nanoparticles deposited on diamine-alkalized graphene for highly efficient dehydrogenation of hydrous hydrazine at room temperature | 9.3 | 73 | Citations (PDF) |
| 174 | Immobilizing Extremely Catalytically Active Palladium Nanoparticles to Carbon Nanospheres: A Weakly-Capping Growth Approach | 15.0 | 238 | Citations (PDF) |
| 175 | Surfactant-free Pd nanoparticles immobilized to a metal–organic framework with size- and location-dependent catalytic selectivity | 3.4 | 88 | Citations (PDF) |
| 176 | Liquid organic and inorganic chemical hydrides for high-capacity hydrogen storage | 30.8 | 811 | Citations (PDF) |
| 177 | Non-noble bimetallic CuCo nanoparticles encapsulated in the pores of metal–organic frameworks: synergetic catalysis in the hydrolysis of ammonia borane for hydrogen generation | 4.0 | 199 | Citations (PDF) |
| 178 | Metal–organic framework composites | 37.7 | 2,170 | Citations (PDF) |
| 179 | Dendrimer‐Encapsulated Cobalt Nanoparticles as High‐Performance Catalysts for the Hydrolysis of Ammonia Borane | 3.6 | 40 | Citations (PDF) |
| 180 | Controlled Synthesis of Ultrafine Surfactant-Free NiPt Nanocatalysts toward Efficient and Complete Hydrogen Generation from Hydrazine Borane at Room Temperature | 12.4 | 86 | Citations (PDF) |
| 181 | Highly active AuCo alloy nanoparticles encapsulated in the pores of metal–organic frameworks for hydrolytic dehydrogenation of ammonia borane | 3.4 | 126 | Citations (PDF) |
| 182 | Effect of Functionalized Groups on Gas‐Adsorption Properties: Syntheses of Functionalized Microporous Metal–Organic Frameworks and Their High Gas‐Storage Capacity | 3.4 | 48 | Citations (PDF) |
| 183 | Sodium hydroxide-assisted growth of uniform Pd nanoparticles on nanoporous carbon MSC-30 for efficient and complete dehydrogenation of formic acid under ambient conditions | 7.1 | 241 | Citations (PDF) |
| 184 | Two cationic metal–organic frameworks featuring different cage-to-cage connections: syntheses, crystal structures, photoluminescence and gas sorption properties | 2.4 | 19 | Citations (PDF) |
| 185 | A three-dimensional coordination polymer based on linear trinuclear copper(ii) clusters featuring a ferromagnetic exchange interaction | 2.4 | 5 | Citations (PDF) |
| 186 | Distinct anion sensing by a 2D self-assembled Cu(ι)-based metal–organic polymer with versatile visual colorimetric responses and efficient selective separations via anion exchange | 9.3 | 30 | Citations (PDF) |
| 187 | Immobilizing Metal Nanoparticles to Metal–Organic Frameworks with Size and Location Control for Optimizing Catalytic Performance | 15.0 | 722 | Citations (PDF) |
| 188 | Lanthanide coordination polymers assembled from triazine-based flexible polycarboxylate ligands and their luminescent properties | 2.4 | 25 | Citations (PDF) |
| 189 | A cyanide-bridged trinuclear Fe(ii)–Ru(ii)–Fe(ii) complex with three stable states: synthesis, crystal structures, electronic couplings and magnetic properties | 3.0 | 22 | Citations (PDF) |
| 190 | Bright blue emissions with temperature-dependent quantum yields from microporous metal–organic frameworks | 3.4 | 99 | Citations (PDF) |
| 191 | Four new cobalt(ii) coordination complexes: thermochromic switchable behavior in the process of dehydration and rehydration | 2.4 | 31 | Citations (PDF) |
| 192 | Self-Assembly of [M13Ni8S8(edt)14]2– (M = Cd, Zn): A New Type of Henicosnuclear Heterometallic Clusters Based on Two Primary Building Units | 3.4 | 1 | Citations (PDF) |
| 193 | A series of goblet-like heterometallic pentanuclear [LnIIICuII4] clusters featuring ferromagnetic coupling and single-molecule magnet behavior | 3.4 | 36 | Citations (PDF) |
| 194 | Self assembly of a tren-derivative hydrogenated Schiff base with transition metal ions: syntheses, crystal structures and photoluminescent properties | 2.4 | 13 | Citations (PDF) |
| 195 | Homochiral coordination polymers constructed from aminocarboxylate derivates: Effect of bipyridine on the amidation reaction | 3.3 | 13 | Citations (PDF) |
| 196 | Synthesis and characterization of cobalt(iii) cyanide complexes: cobalt participation in the decomposition of radical anion of TCNQ | 2.4 | 4 | Citations (PDF) |
| 197 | A one-dimensional coordination polymer constructed from planar pentanuclear copper(ii) clusters with a flexible tripodal ligand | 3.0 | 20 | Citations (PDF) |
| 198 | In situ synthesis of nickel tiara-like clusters with two different thiolate bridges | 3.0 | 27 | Citations (PDF) |
| 199 | Two MnII coordination polymers with a triazine-based polycarboxylate ligand: pH value influence, crystal structures and magnetic properties | 4.8 | 6 | Citations (PDF) |
| 200 | Syntheses, structural aspects, luminescence and magnetism of four coordination polymers based on a new flexible polycarboxylate | 2.4 | 46 | Citations (PDF) |
| 201 | Formation of Zn(II) and Cd(II) Coordination Polymers Assembled by Triazine-Based Polycarboxylate and in-Situ-Generated Pyridine-4-thiolate or Dipyridylsulfide Ligands: Observation of an Unusual Luminescence Thermochromism | 4.6 | 98 | Citations (PDF) |
| 202 | Syntheses, structures and properties of three-dimensional lanthanide frameworks constructed with a trigonal anti-prismatic lanthanide cluster | 2.4 | 18 | Citations (PDF) |
| 203 | Redox‐Responsive Photochromism and Fluorescence Modulation of Two 3D Metal–Organic Hybrids Derived from a Triamine‐Based Polycarboxylate Ligand | 3.4 | 120 | Citations (PDF) |
| 204 | Syntheses, structures and photoluminescent properties of two metal-organic complexes assembled with a new polycarboxylate ligand | 4.8 | 8 | Citations (PDF) |
| 205 | Two luminescent enantiomorphic 3D metal–organic frameworks with 3D homochiral double helices | 3.4 | 58 | Citations (PDF) |
| 206 | Novel Structures and Luminescence Properties of Lanthanide Coordination Polymers with a Novel Flexible Polycarboxylate Ligand | 3.4 | 88 | Citations (PDF) |
| 207 | Rigid-flexible coupling poly (phenylene sulfide) fiber membrane: a highly stable chemical and thermal material for energy and environmental applications 0, 4, | | 13 | Citations (PDF) |
| 208 | Single-atomic-Ni electrocatalyst derived from phthalocyanine-modified MOF for convoying CO2 intelligent utilization 0, 4, | | 17 | Citations (PDF) |
| 209 | Bifunctional Oxygen‐Defect Bismuth Catalyst toward Concerted Production of H2O2 with over 150% Cell Faradaic Efficiency in Continuously Flowing Paired‐Electrosynthesis System | 24.5 | 35 | Citations (PDF) |
| 210 | Synergistic Enhancement of Band Gap and Optical Anisotropy via Functional-Site Cosubstitution in Antiperovskite-Type Chalcohalides [Ba<sub>2</sub>K][X][MS<sub>4</sub>] (M = Ge, Si; X = Cl, Br) | 4.6 | 0 | Citations (PDF) |
| 211 | Electrochemical Approach to Organonitrogen Compounds via C–N Coupling | 12.6 | 0 | Citations (PDF) |
| 212 | Unlocking high-efficiency electrosynthesis of N,N-dimethylformamide through the synergy of three-dimensional ordered macroporous superstructure and implanted nano-tentacles | 20.5 | 0 | Citations (PDF) |
| 213 | A high-performance IR nonlinear optical material Sr
<sub>3</sub>
MnGe
<sub>2</sub>
S
<sub>8</sub>
achieved
<i>via</i>
partial cation substitution-induced structural transformation | 6.3 | 0 | Citations (PDF) |
| 214 | Maximizing the second-harmonic generation response
<i>via</i>
coordination-induced localization of nonbonding electrons | 7.1 | 0 | Citations (PDF) |
| 215 | Ultramicroporous MOF-enabled molecular confinement for efficient full-color and white-light emission | 12.0 | 0 | Citations (PDF) |
| 216 | Sustainably electrified co-production of Nylon-6 and Nylon-66 monomers via divergent paired-electrolysis with matched electron stoichiometry | 20.5 | 1 | Citations (PDF) |
