|Decarboxylation via addition of water to a carboxyl group: acid catalysis of pyrrole-2-carboxylic acid|
SOC Mundle, R Kluger
Journal of the American Chemical Society 131 (33), 11674-11675, 2009
|Hydrolytic decarboxylation of carboxylic acids and the formation of protonated carbonic acid|
SOC Mundle, G Lacrampe-Couloume, BS Lollar, R Kluger
Journal of the American Chemical Society 132 (7), 2430-2436, 2010
|Insights into enzyme kinetics of chloroethane biodegradation using compound specific stable isotopes|
BS Lollar, S Hirschorn, SOC Mundle, A Grostern, EA Edwards, ...
Environmental science & technology 44 (19), 7498-7503, 2010
|Monitoring biodegradation of ethene and bioremediation of chlorinated ethenes at a contaminated site using compound-specific isotope analysis (CSIA)|
SOC Mundle, T Johnson, G Lacrampe-Couloume, A Pérez-de-Mora, ...
Environmental science & technology 46 (3), 1731-1738, 2012
|Large Carbon Isotope Fractionation during Biodegradation of Chloroform by Dehalobacter Cultures|
CCH Chan, SOC Mundle, T Eckert, X Liang, S Tang, ...
Environmental science & technology 46 (18), 10154-10160, 2012
|Internal Return of Carbon Dioxide in Decarboxylation: Catalysis of Separation and 12C/13C Kinetic Isotope Effects|
SOC Mundle, S Rathgeber, G Lacrampe-Couloume, B Sherwood Lollar, ...
Journal of the American Chemical Society 131 (33), 11638-11639, 2009
|Eukaryotic opportunists dominate the deep-subsurface biosphere in South Africa|
G Borgonie, B Linage-Alvarez, AO Ojo, SOC Mundle, LB Freese, ...
Nature communications 6 (1), 1-12, 2015
|Distinct carbon isotope fractionation during anaerobic degradation of dichlorobenzene isomers|
X Liang, SOC Mundle, JL Nelson, E Passeport, CCH Chan, ...
Environmental science & technology 48 (9), 4844-4851, 2014
|The role of pre-association in Brønsted acid-catalyzed decarboxylation and related processes|
R Kluger, SOC Mundle
Advances in Physical Organic Chemistry 44, 357, 2010
|Protonated carbonic acid and reactive intermediates in the acidic decarboxylation of indolecarboxylic acids|
AA Vandersteen, SOC Mundle, R Kluger
The Journal of organic chemistry 77 (15), 6505-6509, 2012
|Avoiding CO2 in catalysis of decarboxylation|
R Kluger, GW Howe, SOC Mundle
Advances in physical organic chemistry 47, 85-128, 2013
|Diffusion sampler for compound specific carbon isotope analysis of dissolved hydrocarbon contaminants|
E Passeport, R Landis, SOC Mundle, K Chu, EE Mack, E Lutz, BS Lollar
Environmental science & technology 48 (16), 9582-9590, 2014
|Pressure‐monitored headspace analysis combined with compound‐specific isotope analysis to measure isotope fractionation in gas‐producing reactions|
SOC Mundle, AA Vandersteen, G Lacrampe‐Couloume, R Kluger, ...
Rapid Communications in Mass Spectrometry 27 (15), 1778-1784, 2013
|Fate and transport of dissolved methane and ethane in cretaceous shales of the Williston Basin, Canada|
MJ Hendry, SL Barbour, EE Schmeling, SOC Mundle, M Huang
Water Resources Research 52 (8), 6440-6450, 2016
|Investigating the mechanism of heteroaromatic decarboxylation using solvent kinetic isotope effects and Eyring transition-state theory|
SOC Mundle, L Guevara Opiñska, R Kluger, AP Dicks
Journal of Chemical Education 88 (7), 1004-1006, 2011
|The hammett equation: Probing the mechanism of aromatic semicarbazone formation|
GK Ikeda, K Jang, SOC Mundle, AP Dicks
Journal of chemical education 83 (9), 1341, 2006
|Measuring Concentrations of Dissolved Methane and Ethane and the 13C of Methane in Shale and Till|
MJ Hendry, SL Barbour, EE Schmeling, SOC Mundle
Groundwater 55 (1), 119-128, 2017
|Methane sources and sinks in continental sedimentary systems: New insights from paired clumped isotopologues 13CH3D and 12CH2D2|
T Giunta, ED Young, O Warr, I Kohl, JL Ash, A Martini, SOC Mundle, ...
Geochimica et Cosmochimica Acta 245, 327-351, 2019
|Carbon kinetic isotope effects reveal variations in reactivity of intermediates in the formation of protonated carbonic acid|
AA Vandersteen, SOC Mundle, G Lacrampe-Couloume, ...
The Journal of Organic Chemistry 78 (23), 12176-12181, 2013
|Water and sediment as sources of phosphate in aquatic ecosystems: The Detroit River and its role in the Laurentian Great Lakes|
SF Colborne, TJ Maguire, B Mayer, M Nightingale, GE Enns, AT Fisk, ...
Science of the Total Environment 647, 1594-1603, 2019