# | Title | Journal | Year | Citations |
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1 | Extensive theoretical studies of the hydrogen‐bonded complexes (H2O)2, (H2O)2H+, (HF)2, (HF)2H+, F2H−, and (NH3)2 | Journal of Chemical Physics | 1986 | 666 |
2 | Nitrogen‐Doped Graphene Foams as Metal‐Free Counter Electrodes in High‐Performance Dye‐Sensitized Solar Cells | Angewandte Chemie - International Edition | 2012 | 581 |
3 | Three-dimensional B,N-doped graphene foam as a metal-free catalyst for oxygen reduction reaction | Physical Chemistry Chemical Physics | 2013 | 284 |
4 | The hydrogen bond | Chemical Physics Letters | 2008 | 279 |
5 | Concentrations and Enantiomeric Ratios of Organochlorine Pesticides in Soils from the U.S. Corn Belt | Environmental Science & Technology | 1998 | 209 |
6 | Photoelectrochemical and Photoresponsive Properties of Bi2S3Nanotube and Nanoparticle Thin Films | Chemistry of Materials | 2010 | 205 |
7 | Novak's Theory of Education: Human Constructivism and Meaningful Learning | Journal of Chemical Education | 2001 | 191 |
8 | Structures, Energies, Bonding, and NMR Properties of Pnicogen Complexes H2XP:NXH2(X ═ H, CH3, NH2, OH, F, Cl) | Journal of Physical Chemistry A | 2011 | 170 |
9 | Relativistic Functional Groups: Aryl Carbon–Gold Bond Formation by Selective Transmetalation of Boronic Acids | Angewandte Chemie - International Edition | 2006 | 169 |
10 | Thioether Side Chains Improve the Stability, Fluorescence, and Metal Uptake of a Metal–Organic Framework | Chemistry of Materials | 2011 | 145 |
11 | White Light Emission and Second Harmonic Generation from Secondary Group Participation (SGP) in a Coordination Network | Journal of the American Chemical Society | 2012 | 142 |
12 | Iridium Dihydroxybipyridine Complexes Show That Ligand Deprotonation Dramatically Speeds Rates of Catalytic Water Oxidation | Inorganic Chemistry | 2013 | 142 |
13 | Preparation and Crystal Structure Analysis of Magnetoplumbite-Type BaGa12O19 | Journal of Solid State Chemistry | 1998 | 140 |
14 | In situ tetrazole ligand synthesis leading to a microporous cadmium–organic framework for selective ion sensing | Chemical Communications | 2009 | 139 |
15 | Transfer Hydrogenation in Water via a Ruthenium Catalyst with OH Groups near the Metal Center on a bipy Scaffold | Organometallics | 2011 | 139 |
16 | Near-infrared emitting ytterbium metal–organic frameworks with tunable excitation properties | Chemical Communications | 2009 | 135 |
17 | 31P–31P spin–spin coupling constants for pnicogen homodimers | Chemical Physics Letters | 2011 | 132 |
18 | Pnicogen Bonded Complexes of PO2X (X = F, Cl) with Nitrogen Bases | Journal of Physical Chemistry A | 2013 | 129 |
19 | Coupled-cluster calculations of the excitation energies of benzene and the azabenzenes | Journal of Chemical Physics | 1997 | 126 |
20 | Do coupling constants and chemical shifts provide evidence for the existence of resonance-assisted hydrogen bonds? | Molecular Physics | 2004 | 126 |
21 | High surface area and Z′ in a thermally stable 8-fold polycatenated hydrogen-bonded framework | Chemical Communications | 2015 | 124 |
22 | Studies of the Pathways Open to Copper Water Oxidation Catalysts Containing Proximal Hydroxy Groups During Basic Electrocatalysis | Inorganic Chemistry | 2014 | 120 |
23 | Theoretical Study of Open Chain Dimers and Trimers Containing CH3OH and H2O | Journal of Chemical Physics | 1971 | 115 |
24 | Convenient Detection of Pd(II) by a Metal–Organic Framework with Sulfur and Olefin Functions | Journal of the American Chemical Society | 2013 | 113 |
25 | Are resonance-assisted hydrogen bonds ‘resonance assisted’? A theoretical NMR study | Chemical Physics Letters | 2005 | 106 |
26 | Influence of Hydrogen Bonds on the P···P Pnicogen Bond | Journal of Chemical Theory and Computation | 2012 | 106 |
27 | Mercury(ii) coordination polymers generated from 1,4-bis(2 or 3 or 4-pyridyl)-2,3-diaza-1,3-butadiene ligands | CrystEngComm | 2007 | 99 |
28 | Hydrogen Bond Types, Binding Energies, and 1H NMR Chemical Shifts | Journal of Physical Chemistry A | 1999 | 96 |
29 | Cadmium Metal-Directed Three-Dimensional Coordination Polymers: In Situ Tetrazole Ligand Synthesis, Structures, and Luminescent Properties | Crystal Growth and Design | 2010 | 94 |
30 | Pnicogen-Bonded Cyclic Trimers (PH2X)3 with X = F, Cl, OH, NC, CN, CH3, H, and BH2 | Journal of Physical Chemistry A | 2013 | 94 |
31 | Variations on an NHC Theme: Which Features Enhance Catalytic Transfer Hydrogenation with Ruthenium Complexes? | Organometallics | 2013 | 93 |
32 | Reversible uptake of HgCl2 in a porous coordination polymer based on the dual functions of carboxylate and thioether | Chemical Communications | 2009 | 91 |
33 | Pd Uptake and H2S Sensing by an Amphoteric Metal–Organic Framework with a Soft Core and Rigid Side Arms | Angewandte Chemie - International Edition | 2014 | 91 |
34 | Chiral Pesticides in Soils of the Fraser Valley, British Columbia | Journal of Agricultural and Food Chemistry | 1997 | 90 |
35 | Interplay of F–H...F Hydrogen Bonds and P...N Pnicogen Bonds | Journal of Physical Chemistry A | 2012 | 90 |
36 | Reversible shrinkage and expansion of a blue photofluorescent cadmium coordination polymer and in situ tetrazole ligand synthesis | Chemical Communications | 2008 | 89 |
37 | On the potential for nanoscale metal–organic frameworks for energy applications | Journal of Materials Chemistry A | 2019 | 88 |
38 | Mono- and Di-Gold(I) Naphthalenes and Pyrenes: Syntheses, Crystal Structures, and Photophysics | Organometallics | 2009 | 85 |
39 | Geminally Diaurated Gold(I) Aryls from Boronic Acids | Angewandte Chemie - International Edition | 2012 | 85 |
40 | Targeted synthesis of a large triazine-based [4+6] organic molecular cage: structure, porosity and gas separation | Chemical Communications | 2015 | 85 |
41 | Hydrogen bonds between first‐row hydrides and acetylene | Journal of Chemical Physics | 1983 | 84 |
42 | Do Traditional, Chlorine-shared, and Ion-pair Halogen Bonds Exist? An ab Initio Investigation of FCl:CNX Complexes | Journal of Physical Chemistry A | 2010 | 81 |
43 | Exploring (NH2F)2, H2FP:NFH2, and (PH2F)2 Potential Surfaces: Hydrogen Bonds or Pnicogen Bonds? | Journal of Physical Chemistry A | 2013 | 81 |
44 | Synthesis, antimicrobial, antimycobacterial and structure–activity relationship of substituted pyrazolo-, isoxazolo-, pyrimido- and mercaptopyrimidocyclohepta[b]indoles | European Journal of Medicinal Chemistry | 2012 | 80 |
45 | Structures, Binding Energies, and Spin–Spin Coupling Constants of Geometric Isomers of Pnicogen Homodimers (PHFX)2, X = F, Cl, CN, CH3, NC | Journal of Physical Chemistry A | 2012 | 79 |
46 | Syntheses, structures, modification, and optical properties of meso-tetraaryl-2,3-dimethoxychlorin, and two isomeric meso-tetraaryl-2,3,12,13-tetrahydroxybacteriochlorins | Organic and Biomolecular Chemistry | 2010 | 78 |
47 | Pnicogen Bonds between X═PH3 (X = O, S, NH, CH2) and Phosphorus and Nitrogen Bases | Journal of Physical Chemistry A | 2014 | 77 |
48 | Synthesis, Characterization, and Stoichiometric U–O Bond Scission in Uranyl Species Supported by Pyridine(diimine) Ligand Radicals | Journal of the American Chemical Society | 2015 | 77 |
49 | Origin of the bathochromically shifted optical spectra of meso-tetrathien-2′- and 3′-ylporphyrins as compared to meso-tetraphenylporphyrin | Physical Chemistry Chemical Physics | 2006 | 76 |
50 | Nano-structures of two new lead(II) coordination polymers: New precursors for preparation of PbS nano-structures | Solid State Sciences | 2008 | 75 |