SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2094466547> ?p ?o ?g. }

Showing items 1 to 100 of ±176 with 100 items per page.

W2094466547 endingPage "3318" @default.
W2094466547 startingPage "3308" @default.
W2094466547 abstract "We assess the pros and cons of a large panel of DFT exchange-correlation functionals for the prediction of the electronic structure of hydrogen-rich peptide radicals formed after electron attachment on a protonated peptide. Indeed, despite its importance in the understanding of the chemical changes associated with the reduction step, the question of the attachment site of an electron and, more generally, of the reduced species formed in the gas phase through electron-induced dissociation (ExD) processes in mass spectrometry is still a matter of debate. For hydrogen-rich peptide radicals in which several positive groups and low-lying π* orbitals can capture the incoming electron in ExD, inclusion of full Hartree–Fock exchange at long-range interelectronic distance is a prerequisite for an accurate description of the electronic states, thereby excluding several popular exchange-correlation functionals, e.g., B3LYP, M06-2X, or CAM-B3LYP. However, we show that this condition is not sufficient by comparing the results obtained with asymptotically correct range-separated hybrids (M11, LC-BLYP, LC-BPW91, ωB97, ωB97X, and ωB97X-D) and with reference CASSCF-MRCI and EOM-CCSD calculations. The attenuation parameter ω significantly tunes the spin density distribution and the excited states vertical energies. The investigated model structures, ranging from methylammonium to hexapeptide, allow us to obtain a description of the nature and energy of the electronic states, depending on (i) the presence of hydrogen bond(s) around the cationic site(s), (ii) the presence of π* molecular orbitals (MOs), and (iii) the selected DFT approach. It turns out that, in the present framework, LC-BLYP and ωB97 yields the most accurate results." @default.
W2094466547 created "2016-06-24" @default.
W2094466547 creator A5020352602 @default.
W2094466547 creator A5032291888 @default.
W2094466547 creator A5063766768 @default.
W2094466547 creator A5083783396 @default.
W2094466547 date "2014-07-10" @default.
W2094466547 modified "2023-10-06" @default.
W2094466547 title "Benchmarking DFT and TD-DFT Functionals for the Ground and Excited States of Hydrogen-Rich Peptide Radicals" @default.
W2094466547 cites W1972307995 @default.
W2094466547 cites W1982356449 @default.
W2094466547 cites W1983191700 @default.
W2094466547 cites W1984614201 @default.
W2094466547 cites W1989834263 @default.
W2094466547 cites W1991202341 @default.
W2094466547 cites W1993383767 @default.
W2094466547 cites W1996943850 @default.
W2094466547 cites W2000798385 @default.
W2094466547 cites W2000819512 @default.
W2094466547 cites W2003320348 @default.
W2094466547 cites W2003452348 @default.
W2094466547 cites W2004558299 @default.
W2094466547 cites W2009980680 @default.
W2094466547 cites W2010260375 @default.
W2094466547 cites W2013885372 @default.
W2094466547 cites W2013984919 @default.
W2094466547 cites W2014578458 @default.
W2094466547 cites W2018213801 @default.
W2094466547 cites W2023232013 @default.
W2094466547 cites W2023271753 @default.
W2094466547 cites W2023515479 @default.
W2094466547 cites W2024060777 @default.
W2094466547 cites W2025299424 @default.
W2094466547 cites W2026498919 @default.
W2094466547 cites W2029065336 @default.
W2094466547 cites W2032436962 @default.
W2094466547 cites W2032883396 @default.
W2094466547 cites W2035879838 @default.
W2094466547 cites W2036860653 @default.
W2094466547 cites W2039779520 @default.
W2094466547 cites W2040305415 @default.
W2094466547 cites W2048527293 @default.
W2094466547 cites W2050453167 @default.
W2094466547 cites W2050678421 @default.
W2094466547 cites W2053337631 @default.
W2094466547 cites W2055861132 @default.
W2094466547 cites W2062366727 @default.
W2094466547 cites W2062852634 @default.
W2094466547 cites W2064140463 @default.
W2094466547 cites W2064620990 @default.
W2094466547 cites W2066481445 @default.
W2094466547 cites W2067772031 @default.
W2094466547 cites W2067812649 @default.
W2094466547 cites W2070455185 @default.
W2094466547 cites W2080011781 @default.
W2094466547 cites W2081056215 @default.
W2094466547 cites W2081620687 @default.
W2094466547 cites W2082920454 @default.
W2094466547 cites W2084053963 @default.
W2094466547 cites W2086482125 @default.
W2094466547 cites W2086957099 @default.
W2094466547 cites W2087563124 @default.
W2094466547 cites W2088206866 @default.
W2094466547 cites W2092273957 @default.
W2094466547 cites W2093898784 @default.
W2094466547 cites W2094084102 @default.
W2094466547 cites W2098658310 @default.
W2094466547 cites W2098959265 @default.
W2094466547 cites W2110194449 @default.
W2094466547 cites W2112850441 @default.
W2094466547 cites W2118886538 @default.
W2094466547 cites W2121612064 @default.
W2094466547 cites W2123387563 @default.
W2094466547 cites W2125123893 @default.
W2094466547 cites W2131741443 @default.
W2094466547 cites W2134866905 @default.
W2094466547 cites W2135261522 @default.
W2094466547 cites W2136262637 @default.
W2094466547 cites W2136485787 @default.
W2094466547 cites W2136974802 @default.
W2094466547 cites W2143981217 @default.
W2094466547 cites W2144240724 @default.
W2094466547 cites W2148040558 @default.
W2094466547 cites W2148337738 @default.
W2094466547 cites W2150697053 @default.
W2094466547 cites W2151059869 @default.
W2094466547 cites W2155976322 @default.
W2094466547 cites W2159254255 @default.
W2094466547 cites W2162033800 @default.
W2094466547 cites W2169262306 @default.
W2094466547 cites W2169550090 @default.
W2094466547 cites W2315221900 @default.
W2094466547 cites W2315785545 @default.
W2094466547 cites W2316292712 @default.
W2094466547 cites W2316601509 @default.
W2094466547 cites W2317815801 @default.
W2094466547 cites W2319777495 @default.
W2094466547 cites W2323267566 @default.