| 1 |
The hydrogen-bridged radical cation [NH2C=O center dot center dot center dot H center dot center dot center dot O=CHCH3](center dot+) and its dissociation by proton-transport catalysis
Jobst KJ, Terlouw JK
Chemical Physics Letters, 523, 20, 2012 |
| 2 |
The covalently bound dimer ion HC=N-C=NH center dot+ and its neutral counterpart
Jobst KJ, Terlouw JK
Chemical Physics Letters, 497(1-3), 7, 2010 |
| 3 |
The covalently bound HC N dimer ions HC=N-N=CH center dot+ and HC=N-C(=N)H center dot+ are stable species in the gas-phase, but the neutral counterparts are not
Jobst KJ, Hanifa MR, Ruttink PJA, Terlouw JK
Chemical Physics Letters, 473(4-6), 257, 2009 |
| 4 |
The quest for the elusive carbodiimide ion HN=C=NH center dot+ and its generation from ionized cyanamide by proton-transport catalysis
Jobst KJ, Gerbaux P, Dimopoulos-Italiano G, Ruttink PJA, Terlouw JK
Chemical Physics Letters, 478(4-6), 144, 2009 |
| 5 |
The reaction of the acrylonitrile ion CH2=CH-C N center dot+ with HCN: Proton-transport catalysis vs formation of ionized pyrimidine
Ervasti HK, Jobst KJ, Gerbaux P, Burgers PC, Ruttink PJA, Terlouw JK
Chemical Physics Letters, 482(4-6), 211, 2009 |
| 6 |
Does the ion-molecule reaction between HC CH center dot+ and HCN lead to CH2=CH-C N center dot+? A computational and experimental study of the reverse process
Jobst KJ, Hasan SA, Terlouw JK
Chemical Physics Letters, 450(4-6), 243, 2008 |
| 7 |
The covalently bound HNC dimer ion HN = C = C = NH center dot+ has a kinetically stable neutral counterpart
Jobst KJ, Hanifa MR, Terlouw JK
Chemical Physics Letters, 462(4-6), 152, 2008 |
| 8 |
The ionic isomerization [HCOH](center dot+)->[CH2 = O](center dot+): proton-transport catalysis by CO and CO2
Wong CY, Ruttink PJA, Burgers PC, Terlouw JK
Chemical Physics Letters, 387(1-3), 204, 2004 |
| 9 |
The isomerization of [H2O-C=O](center dot+) and [HC(=O)OH](center dot+) into [HO-C-OH](center dot+): proton-transport catalysis by CO
Wong CY, Ruttink PJA, Burgers PC, Terlouw JK
Chemical Physics Letters, 390(1-3), 176, 2004 |
| 10 |
Generation of the elusive methyl dioxophosphorane molecule, CH3P(=O)2, selected by delayed dissociation of precursors
Heydorn LN, Burgers PC, Ruttink PJA, Terlouw JK
Chemical Physics Letters, 368(5-6), 584, 2003 |
