| Effects of biogenic H2S on the microbiologically influenced corrosion of C1018 carbon steel by sulfate reducing Desulfovibrio vulgaris biofilm R Jia, JL Tan, P Jin, DJ Blackwood, D Xu, T Gu Corrosion Science 130, 1-11, 2018 | 354 | 2018 |
| Investigation of the mechanism and characteristics of copper corrosion by sulfate reducing bacteria W Dou, R Jia, P Jin, J Liu, S Chen, T Gu Corrosion Science 144, 237-248, 2018 | 178 | 2018 |
| High performance biodegradable thermoplastic starch—EMMT nanoplastics M Huang, J Yu, X Ma, P Jin Polymer 46 (9), 3157-3162, 2005 | 138 | 2005 |
| Effects of ferrous ion concentration on microbiologically influenced corrosion of carbon steel by sulfate reducing bacterium Desulfovibrio vulgaris R Jia, D Wang, P Jin, T Unsal, D Yang, J Yang, D Xu, T Gu Corrosion Science 153, 127-137, 2019 | 117 | 2019 |
| Analysis of corrosion scales formed on steel at high temperatures in hydrocarbons containing model naphthenic acids and sulfur compounds P Jin, S Nesic, HA Wolf The NACE International Annual Conference, 1-17, 2014 | 60 | 2014 |
| Corrosion behavior of mild steel in sour environments at elevated temperatures S Gao, P Jin, B Brown, D Young, S Nesic, M Singer CORROSION 2017, 1-17, 2017 | 51 | 2017 |
| Mechanism of magnetite formation in high temperature naphthenic acid corrosion by crude oil fractions P Jin, S Nesic Corrosion Science 115, 93-105, 2017 | 44 | 2017 |
| Effect of High Temperature on the Aqueous H2S Corrosion of Mild Steel S Gao, P Jin, B Brown, D Young, S Nešić, M Singer Corrosion 73 (10), 1188-1191, 2017 | 40 | 2017 |
| Mechanism of magnetite formation in high temperature corrosion by model naphthenic acids P Jin, W Robbins, G Bota Corrosion Science 111, 822-834, 2016 | 37 | 2016 |
| Analysis of oxide scales formed in the naphthenic acid corrosion of carbon steel P Jin, G Bota, W Robbins, S Nesic Energy & Fuels 30 (8), 6853-6862, 2016 | 31 | 2016 |
| High-temperature corrosion by carboxylic acids and sulfidation under refinery conditions—mechanism, model, and simulation P Jin, W Robbins, G Bota Industrial & Engineering Chemistry Research 57 (12), 4329-4339, 2018 | 23 | 2018 |
| Method for identifying layers providing corrosion protection in crude oil fractions HA Wolf, F Cao, SC Blum, AM Schilowitz, S Ling, JE McLAUGHLIN, ... US Patent 9,140,640, 2015 | 20 | 2015 |
| Method for isolation and detection of ketones formed from high-temperature naphthenic acid corrosion LC Krajewski, VV Lobodin, WK Robbins, P Jin, G Bota, AG Marshall, ... Energy & Fuels 31 (10), 10674-10679, 2017 | 18 | 2017 |
| Effect of temperature on scale formation in high-temperature corrosion by model naphthenic acids and sulfur compounds under replenishing conditions P Jin, W Robbins, G Bota Energy & Fuels 31 (9), 10222-10232, 2017 | 18 | 2017 |
| Effect of sulfur compounds on formation of protective scales in naphthenic acid corrosion in non-turbulent flow P Jin, W Robbins, G Bota Corrosion Science 131, 223-234, 2018 | 17 | 2018 |
| Synthesis of some novel 1, 2, 3-triazole-fused oligonucleoside and oligosaccharide analogues PY Jin, P Jin, YA Ruan, Y Ju, YF Zhao Synlett 2007 (19), 3003-3006, 2007 | 17 | 2007 |
| Mechanism of corrosion by naphthenic acids and organosulfur compounds at high temperatures P Jin Ohio University, 2013 | 14 | 2013 |
| Characterization of Magnetite Scale Formed in Naphthenic Acid Corrosion P Jin, W Robbins, G Bota, S Nesic JOM, 1-8, 2016 | 10 | 2016 |
| Effect of thiophenes on high-temperature corrosion by sulfidation and naphthenic acids P Jin, W Robbins, G Bota Energy & Fuels 33 (10), 10365-10371, 2019 | 8 | 2019 |
| Generation of H2S by Crude Fractions at High Temperature P Jin, F Farelas, W Robbins, G Bota, S Nesic 248th ACS National Meeting & Exposition, 2014 | 7 | 2014 |
