Two cation layers (ab-plane) and one anion layer of a CaCO3, b MgCO3, c... | Download Scientific Diagram
DOLOMITE, VERY HIGH-MAGNESIUM CALCITE, AND MICROBES— IMPLICATIONS FOR THE MICROBIAL MODEL OF DOLOMITIZATION
PDF) Direct physical evidence of dolomite recrystallization
Microbially catalyzed dolomite formation_ From near-surface to burial
A GLOBAL STUDY OF DOLOMITE STOICHIOMETRY AND CATION ORDERING THROUGH THE PHANEROZOIC
Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML
Dolomite cation order in the geological record - ScienceDirect
Point by Point Response to Reviews
Powder XRD patterns (Cu Ka ) comparing dolomite and calcite from 20 to... | Download Scientific Diagram
Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML
DOLOMITE, VERY HIGH-MAGNESIUM CALCITE, AND MICROBES— IMPLICATIONS FOR THE MICROBIAL MODEL OF DOLOMITIZATION
Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega
Dolomite: Mineral information, data and localities.
The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theore
Controls of temperature, alkalinity and calcium carbonate reactant on the evolution of dolomite and magnesite stoichiometry and dolomite cation ordering degree - An experimental approach - ScienceDirect
Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega
Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML
PDF) Direct physical evidence of dolomite recrystallization
![PDF] Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite + magnesite ↔ dolomite reaction boundary | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/9fa7e8e73d149ae701d3cc458c2da7a28922a6e9/2-Figure1-1.png "PDF] Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite + magnesite ↔ dolomite reaction boundary | Semantic Scholar")
PDF] Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite + magnesite ↔ dolomite reaction boundary | Semantic Scholar
Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML
Modern dolomite formation caused by seasonal cycling of oxygenic phototrophs and anoxygenic phototrophs in a hypersaline sabkha | Scientific Reports
The Dolomite Problem: A Matter of Time | ACS Earth and Space Chemistry
Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML
Lateral profiles of dolomite stoichiometry, cation ordering and Fe... | Download Scientific Diagram
