| human | Q5 |
| P496 | ORCID iD | 0000-0003-4679-3950 |
| P1153 | Scopus author ID | 6602735916 |
| P69 | educated at | ETH Board | Q3515551 |
| P108 | employer | Los Alamos National Laboratory | Q379848 |
| University of California, Santa Cruz | Q1047293 | ||
| University of Southern Denmark | Q2166335 | ||
| P734 | family name | Monnard | Q76411493 |
| Monnard | Q76411493 | ||
| Monnard | Q76411493 | ||
| P106 | occupation | researcher | Q1650915 |
| Q36061571 | Catalysis in abiotic structured media: an approach to selective synthesis of biopolymers. |
| Q28085556 | Current Ideas about Prebiological Compartmentalization |
| Q85578492 | Dynamics of fatty acid vesicles in response to pH stimuli |
| Q73881329 | Entrapment of nucleic acids in liposomes |
| Q77796376 | Enzymatic reactions in liposomes using the detergent-induced liposome loading method |
| Q44643198 | Eutectic Phase Polymerization of Activated Ribonucleotide Mixtures Yields Quasi-Equimolar Incorporation of Purine and Pyrimidine Nucleobases |
| Q44227233 | Eutectic phases in ice facilitate nonenzymatic nucleic acid synthesis. |
| Q47802626 | Formation of RNA phosphodiester bond by histidine-containing dipeptides. |
| Q58034182 | Functionalization of Fatty Acid Vesicles through Newly Synthesized Bolaamphiphile–DNA Conjugates |
| Q48360272 | Glass Microsphere-Supported Giant Vesicles for the Observation of Self-Reproduction of Lipid Boundaries. |
| Q44240877 | Influence of ionic inorganic solutes on self-assembly and polymerization processes related to early forms of life: implications for a prebiotic aqueous medium. |
| Q83462807 | Interactions between catalysts and amphiphilic structures and their implications for a protocell model |
| Q35047870 | Liposome-entrapped polymerases as models for microscale/nanoscale bioreactors. |
| Q34968907 | Membrane self-assembly processes: steps toward the first cellular life. |
| Q46711702 | Metal-ion catalyzed polymerization in the eutectic phase in water-ice: a possible approach to template-directed RNA polymerization |
| Q36741713 | Models of primitive cellular life: polymerases and templates in liposomes. |
| Q46179436 | Nucleobase mediated, photocatalytic vesicle formation from an ester precursor. |
| Q43570847 | Nutrient uptake by protocells: a liposome model system. |
| Q59891118 | On the Emergence of a Proto-Metabolism and the Assembly of Early Protocells |
| Q64028877 | Oparin's Reactions Revisited: Enzymic Synthesis of Poly(adenylic acid) in Micelles and Self-Reproducing Vesicles |
| Q84980739 | Phototriggered DNA phosphoramidate ligation in a tandem 5'-amine deprotection/3'-imidazole activated phosphate coupling reaction |
| Q46735972 | Preparation of Vesicles from Nonphospholipid Amphiphiles |
| Q80580208 | Question 9: prospects for the construction of artificial cells or protocells |
| Q33768118 | Self-assembly of phosphate amphiphiles in mixtures of prebiotically plausible surfactants. |
| Q34995119 | Sliding over the blocks in enzyme-free RNA copying--one-pot primer extension in ice |
| Q62670693 | Stable Vesicles Composed of Monocarboxylic or Dicarboxylic Fatty Acids and Trimethylammonium Amphiphiles |
| Q48319825 | Synthesis of Lipophilic Guanine N-9 Derivatives: Membrane Anchoring of Nucleobases Tailored to Fatty Acid Vesicles. |
| Q53061168 | Transmission of photo-catalytic function in a self-replicating chemical system: in situ amphiphile production over two protocell generations. |
| Q58584896 | Vesicle self-assembly of monoalkyl amphiphiles under effects of high ionic strength, extreme pH and high temperature environments |
| Q28480846 | Viability conditions for a compartmentalized protometabolic system: a semi-empirical approach |
Search more.