| human | Q5 |
| P496 | ORCID iD | 0000-0003-0493-820X |
| P734 | family name | van der Linde | Q50361222 |
| van der Linde | Q50361222 | ||
| van der Linde | Q50361222 | ||
| P735 | given name | Christian | Q18001597 |
| Christian | Q18001597 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q59031420 | CC bond formation between CO2− and allyl alcohol: A mechanistic study |
| Q60220799 | CO2/O2 Exchange in Magnesium–Water Clusters Mg+(H2O)n |
| Q89890438 | Carbon Dioxide Activation at Metal Centers: Evolution of Charge Transfer from Mg .+ to CO2 in [MgCO2 (H2 O)n ].+ , n=0-8 |
| Q59031633 | Diatomic [CuO]+ and Its Role in the Spin-Selective Hydrogen- and Oxygen-Atom Transfers in the Thermal Activation of Methane |
| Q93151343 | Electronic spectroscopy and nanocalorimetry of hydrated magnesium ions [Mg(H2O)n]+, n = 20-70: spontaneous formation of a hydrated electron? |
| Q48055414 | Electrons Mediate the Gas-Phase Oxidation of Formic Acid with Ozone. |
| Q95276845 | Evidence for lactone formation during infrared multiple photon dissociation spectroscopy of bromoalkanoate doped salt clusters |
| Q59031068 | Gas-Phase Reactivity Studies of Small Molybdenum Cluster Ions with Dimethyl Disulfide |
| Q37094582 | Gas-phase reactions of cationic vanadium-phosphorus oxide clusters with C2H(x) (x=4, 6): a DFT-based analysis of reactivity patterns. |
| Q59031662 | Hydrated Magnesium Cations Mg+(H2O)n,n≈ 20–60, Exhibit Chemistry of the Hydrated Electron in Reactions with O2and CO2 |
| Q46446637 | Hydration Leads to Efficient Reactions of the Carbonate Radical Anion with Hydrogen Chloride in the Gas Phase |
| Q101472670 | IR multiple photon dissociation spectroscopy of MO2 + (M = V, Nb, Ta) |
| Q90741150 | Infrared Multiple Photon Dissociation Spectroscopy of Hydrated Cobalt Anions Doped with Carbon Dioxide CoCO2 (H2 O)n - , n=1-10, in the C-O Stretch Region |
| Q102057943 | Infrared multiple photon dissociation spectroscopy of anionic copper formate clusters |
| Q47892286 | Infrared spectroscopy of O˙- and OH- in water clusters: evidence for fast interconversion between O˙- and OH˙OH. |
| Q87243113 | Insights into gas-phase structural conformers of hydrated rubidium and cesium cations, M(+)(H2O)(n)Ar (M = Rb, Cs; n = 3-5), using infrared photodissociation spectroscopy |
| Q86657227 | Insights into the structures of the gas-phase hydrated cations M⁺(H₂O)(n)Ar (M = Li, Na, K, Rb, and Cs; n = 3-5) using infrared photodissociation spectroscopy and thermodynamic analysis |
| Q59031681 | Ion-molecule reactions of CoAr6+ with di- and trifluorobenzenes probe absolute pressure in FT-ICR MS |
| Q52374251 | Kinetics of the reaction of CO3˙-(H2O)n, n = 0, 1, 2, with nitric acid, a key reaction in tropospheric negative ion chemistry. |
| Q97519335 | Photochemical activation of carbon dioxide in Mg+(CO2)(H2O)0,1 |
| Q52362991 | Photochemistry of glyoxylate embedded in sodium chloride clusters, a laboratory model for tropospheric sea-salt aerosols. |
| Q59031547 | Photodissociation and photochemistry of V+(H2O)n, n = 1–4, in the 360–680 nm region |
| Q59031052 | Photodissociation of Sodium Iodide Clusters Doped with Small Hydrocarbons |
| Q36289273 | Photodissociation spectroscopy of protonated leucine enkephalin |
| Q90938189 | Probing the Structural Evolution of the Hydrated Electron in Water Cluster Anions (H2O)n-, n ≤ 200, by Electronic Absorption Spectroscopy |
| Q59031482 | Reactions of Hydrated Singly Charged First-Row Transition-Metal Ions M+(H2O)n(M=V, Cr, Mn, Fe, Co, Ni, Cu, and Zn) toward Nitric Oxide in the Gas Phase |
| Q59031574 | Reactions of M+(H2O)n, n < 40, M = V, Cr, Mn, Fe, Co, Ni, Cu, and Zn, with D2O Reveal Water Activation in Mn+(H2O)n |
| Q45874617 | Reactivity of hydrated monovalent first row transition metal ions M(+)(H2O)n, M = V, Cr, Mn, Fe, Co, Ni, Cu, Zn, toward molecular oxygen, nitrous oxide, and carbon dioxide |
| Q64912276 | Release of Formic Acid from Copper Formate: Hydride, Proton-Coupled Electron and Hydrogen Atom Transfer All Play their Role. |
| Q59031771 | Selective Formic Acid Synthesis from Nanoscale Electrochemistry |
| Q59031017 | Structural Properties of Gas Phase Molybdenum Sulfide Clusters [Mo3S13]2–, [HMo3S13]−, and [H3Mo3S13]+ as Model Systems of a Promising Hydrogen Evolution Catalyst |
| Q92669973 | Structural Properties of Gas-Phase Molybdenum Oxide Clusters [Mo4O13]2-, [HMo4O13]-, and [CH3Mo4O13]- Studied by Collision-Induced Dissociation |
| Q52903196 | The [Au(n),Si](-), n=1-4, potential energy surface: competition between Au-Si and Au-Au bonding. |
| Q39491123 | The reaction of CF2Cl2 with gas-phase hydrated electrons |
| Q59031707 | The structure of gas-phase [Al·nH2O]+: hydrated monovalent aluminium Al+(H2O)n or hydride-hydroxide HAlOH+(H2O)n−1? |
| Q54264621 | Thermochemistry from ion-molecule reactions of hydrated ions in the gas phase: a new variant of nanocalorimetry reveals product energy partitioning. |
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