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Formose reaction
A Chemical Engineering Perspective on the Origins of Life
Prebiotic Chemistry: Geochemical Context and Reaction Screening
Formose Reaction Controlled by a Copolymer of N,N-Dimethylacrylamide and 4-Vinylphenylboronic Acid
Inferring Chemical Reaction Patterns Using Rule Composition in Graph Grammars Jakob L Andersen1,4, Christoph Flamm2*, Daniel Merkle1* and Peter F Stadler2,3,4,5,6,7
Complex Chemical Reaction Networks from Heuristics-Aided Quantum Chemistry
The Power of Crowding for the Origins of Life
4 Carbohydrates
Gravitational Influence on Human Living Systems and the Evolution Of
Fermentation of Dihydroxyacetone by Engineered Escherichia Coli and Klebsiella Variicola to Products
The Origin of Life—Out of the Blue John D
Ii COMBINED FEED MOLARITY of Ca (OH)
Impact-Induced Amino Acid Formation on Hadean Earth and Noachian Mars
The Chemical Origin of Behavior Is Rooted in Abiogenesis
Nucleotides - Components Carbohydrates
A Likely Possible Origin of Homochirality in Amino Acids and Sugars on Prebiotic Earth ⇑ Ronald Breslow
Chemical Ecosystem Selection on Mineral Surfaces Reveals Long-Term Dynamics Consistent with the Spontaneous Emergence of Mutual Catalysis
Impact of Phyllosilicates on Amino Acid Formation Under Asteroidal Conditions V
Formose Reaction Accelerated in Aerosol-OT Reverse Micelles
Top View
The Origins of Life: a Review of Scientific Inquiry
A Continuous Reaction Network That Produces RNA Precursors
The Messy Alkaline Formose Reaction and Its Link to Metabolism
Synthesis of Sugars in Potentially Prebiotic Conditions
Chemical Reaction Networks Part 1: Chemical Reaction Networks — What, Where, Why?
Prebiotic Pathway from Ribose to RNA Formation
L-Amino Acids Catalyze the Formation of an Excess of D-Glyceraldehyde, and Thus of Other D Sugars, Under Credible Prebiotic Conditions
Deuterium Studies Reveal a New Mechanism for the Formose Reaction Involving Hydride Shifts Chandrakumar Appayee and Ronald Breslow*
Spontaneous Emergence of Self-Replication in Chemical Reaction Systems
AUTOCATALYSIS and ALL THAT! Alan W. Schwartz
Sugars in Space: a Quantum Chemical Study on the Barrierless Formation of Dihydroxyacetone in the Interstellar Medium
Evidence for Tunneling in Base-Catalyzed Isomerization of Glyceraldehyde to Dihydroxyacetone by Hydride Shift Under Formose Conditions
Complex Chemical Reaction Networks from Heuristics-Aided Quantum Chemistry
Cometary Glycolaldehyde As a Source of Pre-RNA Molecules
Mineral-Mediated Carbohydrate Synthesis by Mechanical Forces in A
Hydrothermal Formose Reaction.Pdf
Context-Driven Exploration of Complex Chemical Reaction Networks
Astrobiology with ALMA: Searching for Prebiotic Compounds in Protoplanetary Disks