R. Miao, X. Liu, E. Englund, and P. Lindberg, Isobutanol production in Synechocystis PCC 6803 using heterologous and endogenous alcohol dehydrogenases

R. Miao, H. Xie, F. M. Ho, and P. Lindblad, Protein engineering of ?-ketoisovalerate decarboxylase for improved isobutanol production in Synechocystis PCC 6803

Z. Qina, G. J. Dunsa, T. Pana, and F. Xin, Consolidated processing of biobutanol production from food wastes by solventogenic<ce:italic>Clostridium</ce:italic>sp. strain HN4, Bioresource Technology, vol.264, 2018.

Á. Fernández-naveira, C. María, C. Veiga, and . Kennes, H-B-E (hexanol-butanol-ethanol) fermentation for the production of higher alcohols from syngas/waste gas, J Chem Technol Biotechnol, vol.92, pp.712-731, 2017.

C. Regalbuto, M. Pennisi, B. Wigg, and D. Kyritsis, Experimental Investigation of Butanol Isomer Combustion in Spark Ignition Engines, SAE Int. J. Engines, 1271.

S. M. Sarathy, P. Oßwald, N. Hansen, and K. Kohse-höinghaus, Alcohol combustion chemistry, Progress in Energy and Combustion Science, vol.44, pp.40-102, 2014.

C. Kalamaras, K. Shaik, G. Kalghatgi, and H. Babiker, SuperButol? -A novel high-octane gasoline blending component, Fuel, vol.195, pp.165-173, 2017.

D. A. Splitter and J. P. Szybist, Experimental Investigation of Spark-Ignited Combustion with High-Octane Biofuels and EGR. 1. Engine Load Range and Downsize Downspeed Opportunity, Energy Fuels, vol.28, issue.2, pp.1418-1431, 2014.

Z. Zhang, T. Wang, M. Jia, and Q. Wei, Combustion and particle number emissions of a direct injection spark ignition engine operating on ethanol/gasoline and n-butanol/gasoline blends with exhaust gas recirculation, Fuel, vol.130, pp.177-188, 2014.

G. Karavalakis, D. Short, D. Vu, and M. Villela, Evaluating the regulated emissions, air toxics, ultrafine particles, and black carbon from SI-PFI and SI-DI vehicles operating on different ethanol and iso-butanol blends, Fuel, vol.128, pp.410-421, 2014.

T. Lattimore, J. M. Herreros, H. Xu, and S. Shuai, Investigation of compression ratio and fuel effect on combustion and PM emissions in a DISI engine, Fuel, vol.169, pp.68-78, 2016.

M. A. Ratcliff, J. Burton, P. Sindler, and E. Christensen, Knock Resistance and Fine Particle Emissions for Several Biomass-Derived Oxygenates in a Direct-Injection Spark-Ignition Engine, SAE Int. J. Fuels Lubr, vol.9, issue.1, pp.59-70, 2016.

G. Karavalakis, D. Short, D. Vu, and R. L. Russell, The impact of ethanol and iso-butanol blends on gaseous and particulate emissions from two passenger cars equipped with spray-guided and wall-guided direct injection SI (spark ignition) engines

M. A. Costagliola, L. De, S. Simio, M. V. Iannaccone, and . Prati, Combustion efficiency and engine out emissions of a S.I. engine fueled with alcohol/gasoline blends

A. Ben-amara, T. Tahtouh, E. Ubrich, and L. Starck, Critical Analysis of PM Index and Other Fuel Indices: Impact of Gasoline Fuel Volatility and Chemical Composition, SAE Technical Paper

A. D. Butler, R. A. Sobotowski, G. J. Hoffman, and P. Machiele, Influence of Fuel PM Index and Ethanol Content on Particulate Emissions from Light-Duty Gasoline Vehicles, SAE 2015 World Congress & Exhibition, APR. 21, 2015.

Z. Chen, F. Yang, S. Xue, and Z. Wu, Impact of higher n-butanol addition on combustion and performance of GDI engine in stoichiometric combustion, Energy Conversion and Management, vol.106, pp.385-392, 2015.

J. Storey, S. Lewis, J. Szybist, and J. Thomas, Novel Characterization of GDI Engine Exhaust for Gasoline and Mid-Level Gasoline-Alcohol Blends, SAE Int. J. Fuels Lubr, vol.7, issue.2, 2014.

J. Trost1, O. Laget, M. Cordier, and F. Duffour, Increasing Modern Spark Ignition Engine Efficiency: Optimization of intake ports dedicated to Miller cycle, high dilution and increased compression ratio, SIA Powertrain, International Conference and Exhibition, 2017.

T. Wallner, Correlation Between Speciated Hydrocarbon Emissions and Flame Ionization Detector Response for Gasoline/Alcohol Blends, J. Eng. Gas Turbines Power, vol.133, issue.8, p.82801, 2011.

G. T. Kalghatgi, K. Nakata, and K. Mogi, Octane Appetite Studies in Direct Injection Spark Ignition (DISI) Engines

, Paper Number

P. Miles, Efficiency Merit Function for Spark Ignition Engines: Revisions and Improvements Based on FY16-17 Research, 2018.

J. T. Farrell, J. Holladay, and R. Wagner, Co-Optimization of Fuels & Engines: Fuel Blendstocks with the Potential to Optimize Future Gasoline Engine Performance; Identification of Five Chemical Families for Detailed Evaluation, 2018.

A. Irimescu, L. Marchitto, S. S. Merola, and C. Tornatore, Combustion process investigations in an optically accessible DISI engine fuelled with n-butanol during part load operation, Renewable Energy, vol.77, pp.363-376

J. P. Szybist and D. A. Splitter, Understanding chemistry-specific fuel differences at a constant RON in a boosted SI engine, Fuel, vol.217, pp.370-381, 2018.

P. Glaude, R. Fournet, R. Bounaceur, and M. Molière, Adiabatic flame temperature from biofuels and fossil fuels and derived effect on NOx emissions, Fuel Processing Technology, vol.91, issue.2, pp.229-235, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00540772

S. Burke, M. Ratcliff, R. Mccormick, and R. Rhoads, Distillation-based Droplet Modeling of Non-Ideal Oxygenated Gasoline Blends: Investigating the Role of Droplet Evaporation on PM Emissions, SAE Int. J. Fuels Lubr, vol.10, issue.1, p.2017

S. Burke, R. Rhoads, M. Ratcliff, and R. Mccormick, Measured and Predicted Vapor Liquid Equilibrium of Ethanol-Gasoline Fuels with Insight on the Influence of Azeotrope Interactions on Aromatic Species Enrichment and Particulate Matter Formation in Spark Ignition Engines, WCX World Congress Experience, APR. 10, 2018.

M. Koegl, B. Hofbeck, S. Will, and L. Zigan, Investigation of soot formation and oxidation of ethanol and butanol fuel blends in a DISI engine at different exhaust gas recirculation rates

K. Aikawa, T. Sakurai, and J. J. Jetter, Development of a Predictive Model for Gasoline Vehicle Particulate Matter Emissions, 2015.

E. Chapman, M. Winston-galant, P. Geng, and R. Latigo, Alternative Fuel Property Correlations to the Honda Particulate Matter Index (PMI), SAE 2016 International Powertrains, Fuels & Lubricants Meeting, 2016.

E. J. Barrientos, J. E. Anderson, M. M. Maricq, ?. L. Andr, and . Boehman, Particulate matter indices using fuel smoke point for vehicle emissions with gasoline, ethanol blends, and butanol blends

E. J. Barrientos, M. Lapuerta, and A. L. Boehman, Group additivity in soot formation for the example of C-5 oxygenated hydrocarbon fuels

J. Wittmann and L. Menger, Novel Index for Evaluation of Particle Formation Tendencies of Fuels with Different Chemical Compositions, SAE Int. J. Fuels Lubr, vol.10, issue.3, 2017.

R. Ballesteros, J. J. Hernández, and J. Guillén-flores, Carbonyls speciation in a typical European automotive diesel engine using bioethanol/butanolâ?"diesel blends

V. J. Feron, H. P. Til, F. De-vrijer, R. A. Woutersen, F. R. Cassee et al., Aldehydes: occurrence, carcinogenic potential, mechanism of action and risk assessmennt, Mutation Research, vol.259, pp.363-385, 1990.

J. R. Kuykendall, Comprehensive Toxicology (Second Edition): 8.16 -Aldehydes, Comprehensive Toxicology, vol.8

W. Carter, Updated maximum incremental reactivity scale and hydrocarbon bin reactivities for regulatory applications: Prepared for California Air Resources Board Contract 07-339, 2010.

B. Hao, C. Song, G. Lv, and B. Li, Evaluation of the reduction in carbonyl emissions from a diesel engine using Fischerâ?, Tropsch fuel synthesized from coal