| Heterogeneous single-atom catalysis |
443 |
| Low-dimensional catalysts for hydrogen evolution and CO2 reduction |
136 |
| Earth-abundant transition metal catalysts for alkene hydrosilylation and hydroboration |
88 |
| Designing catalysts for olefin polymerization and copolymerization: beyond electronic and steric tuning |
74 |
| Hierarchically oriented organization in supramolecular peptide crystals |
72 |
| Chiral molecules and the electron spin |
68 |
| Metal oxide redox chemistry for chemical looping processes |
67 |
| From plasmon-enhanced molecular spectroscopy to plasmon-mediated chemical reactions |
66 |
| Strategies for binding multiple guests in metal-organic cages |
57 |
| Contemporary approaches to site-selective protein modification |
55 |
| Semiconducting quantum dots for artificial photosynthesis |
55 |
| Extending the application of biocatalysis to meet the challenges of drug development |
54 |
| Electrochemical synthesis of hydrogen peroxide from water and oxygen |
51 |
| Synthesis, structures and applications of electron-rich polyoxometalates |
47 |
| Synthetic materials at the forefront of gene delivery |
46 |
| Heteroaryl azo dyes as molecular photoswitches |
46 |
| The ultrafast X-ray spectroscopic revolution in chemical dynamics |
46 |
| The development of molecular water oxidation catalysts |
45 |
| 3D printing for chemical, pharmaceutical and biological applications |
43 |
| Liquid-phase syntheses of sulfide electrolytes for all-solid-state lithium battery |
43 |
| Rapid and efficient protein synthesis through expansion of the native chemical ligation concept |
41 |
| Life-like motion driven by artificial molecular machines |
41 |
| How to explore chemical space using algorithms and automation |
41 |
| Inverse design in search of materials with target functionalities |
39 |
| The role of the metal-bound N-H functionality in Noyori-type molecular catalysts |
38 |
| Precision synthesis versus bulk-scale fabrication of graphenes |
36 |
| Nuclear quantum effects enter the mainstream |
35 |
| The Lewis electron-pair bonding model: modern energy decomposition analysis |
34 |
| Porous metal-organic frameworks as emerging sorbents for clean air |
33 |
| Dirhodium tetracarboxylates as catalysts for selective intermolecular C-H functionalization |
31 |
| Modern applications of low-valent early transition metals in synthesis and catalysis |
27 |
| Encoding information into polymers |
27 |
| Homogeneous catalysis for the production of low-volume, high-value chemicals from biomass |
26 |
| The importance of catalytic promiscuity for enzyme design and evolution |
26 |
| Metal-ligand interactions in drug design |
25 |
| Organocatalysis in aqueous media |
25 |
| Emerging applications of carbon nanohoops |
23 |
| From a quantum-electrodynamical light-matter description to novel spectroscopies |
23 |
| Visualizing biologically active small molecules in cells using click chemistry |
23 |
| Long-standing and unresolved issues in triboelectric charging |
23 |
| Applications of guanine quartets in nanotechnology and chemical biology |
23 |
| Synthetic organic chemistry driven by artificial intelligence |
23 |
| Stereochemical enhancement of polymer properties |
22 |
| Comparing quantitative prediction methods for the discovery of small-molecule chiral catalysts |
22 |
| Super-resolution microscopy as a powerful tool to study complex synthetic materials |
22 |
| Surface premelting of water ice |
22 |
| Planar pentacoordinate carbons |
22 |
| The increasing dynamic, functional complexity of bio-interface materials |
21 |
| Amino proton donors in excited-state intramolecular proton-transfer reactions |
21 |
| Chemistries and processes for the conversion of ethanol into middle-distillate fuels |
21 |
| Molecular-level driving forces in lignocellulosic biomass deconstruction for bioenergy |
20 |
| Reversing nitrogen fixation |
20 |
| Towards the generalized iterative synthesis of small molecules |
19 |
| Controlling the optical properties of carbon nanotubes with organic colour-centre quantum defects |
19 |
| Polymer encapsulation of ruthenium complexes for biological and medicinal applications |
19 |
| Multiscale methods in drug design bridge chemical and biological complexity in the search for cures |
19 |
| Chemistry from 3D printed objects |
18 |
| Ion mobility-mass spectrometry of supramolecular complexes and assemblies |
16 |
| Modern approaches to study plant-insect interactions in chemical ecology |
16 |
| Molecular machines for catalysis |
15 |
| Multiscale modelling of photoinduced processes in composite systems |
14 |
| Molecular conjugation using non-covalent click chemistry |
14 |
| Natural inspirations for metal-ligand cooperative catalysis |
13 |
| The chemistry of senescence |
13 |
| Soft and dispersed interface-rich aqueous systems that promote and guide chemical reactions |
13 |
| Solving the oxygen sensitivity of sensitized photon upconversion in life science applications |
12 |
| The hidden enzymology of bacterial natural product biosynthesis |
11 |
| Methods for detection of cytosine and thymine modifications in DNA |
11 |
| Designing electrochemically reversible H-2 oxidation and production catalysts |
10 |
| The synergic effect of water and biomolecules in intracellular phase separation |
10 |
| Innovation in protecting-group-free natural product synthesis |
10 |
| Synthetic applications of light, electricity, mechanical force and flow |
10 |
| Comparing proteins and nucleic acids for next-generation biomolecular engineering |
10 |
| Spatial and temporal control of chemical processes |
9 |
| Quantum coherences reveal excited-state dynamics in biophysical systems |
9 |
| Carbon dioxide reduction in tandem with light-alkane dehydrogenation |
9 |
| Exploiting metabolic glycoengineering to advance healthcare |
8 |
| The evolving science of phytocannabinoids |
8 |
| The Lewis electron-pair bonding model: the physical background, one century later |
7 |
| Reconstitution of FoF1-ATPase-based biomimetic systems |
7 |
| Monitoring chemical reactions in liquid media using electron microscopy |
6 |
| Streamlining bioactive molecular discovery through integration and automation |
5 |
| Studying glycobiology at the single-molecule level |
5 |
| The plasticity of redox cofactors: from metalloenzymes to redox-active DNA |
2 |
| The kinetics of elementary thermal reactions in heterogeneous catalysis |
2 |
| Creating molecules that modulate immune responses |
1 |
