scispace - formally typeset
Search or ask a question
Institution

Mexican Institute of Petroleum

GovernmentMexico City, Mexico
About: Mexican Institute of Petroleum is a government organization based out in Mexico City, Mexico. It is known for research contribution in the topics: Catalysis & Asphaltene. The organization has 3273 authors who have published 4170 publications receiving 87269 citations.
Topics: Catalysis, Asphaltene, Corrosion, Hydrodesulfurization, Adsorption
Papers published on a yearly basis
1 / 2
Papers
More filters
Journal ArticleDOI
Microwave‐assisted synthesis of 2‐(2‐pyridyl)azoles. Study of their corrosion inhibiting properties

[...]

Natalya V. Likhanova1, Rafael Martínez-Palou1, M. Aurora Veloz2, Diana J. Matias2, Víctor Esteban Reyes-Cruz2, Herbert Höpfl3, Octavio Olivares4 
Mexican Institute of Petroleum1, Universidad Autónoma del Estado de Hidalgo2, Universidad Autónoma del Estado de Morelos3, Benemérita Universidad Autónoma de Puebla4
01 Jan 2007-Journal of Heterocyclic Chemistry
TL;DR: In this article, an efficient and fast procedure for the synthesis of 2-(2-pyridyl)azoles was described using ionic liquids as catalysts under microwave irradiation.

31 citations

Journal ArticleDOI
Experimental and vehicle (on road) test investigations of spark-ignited engine performance and emissions using high concentration of MTBE as oxygenated additive

[...]

Isaac Schifter1, U. González1, Luis Morier Díaz1, C. González-Macías1, Isidro Mejía-Centeno1 
Mexican Institute of Petroleum1
01 Jan 2017-Fuel
TL;DR: In this article, the effect of increasing methyl-tert butyl ether in regular gasoline (15, 25 and 51% volume) on the performance and combustion characteristics of spark ignited engines was studied.

31 citations

Journal ArticleDOI
Synthesis of ionic liquids and their use for extracting nitrogen compounds from gas oil feeds towards diesel fuel production

[...]

Georgina C. Laredo1, Natalya V. Likhanova1, Irina Victorovna Lijanova2, Bernardo Rodriguez-Heredia2, Jesus Castillo1, Patricia Pérez-Romo1 
Mexican Institute of Petroleum1, Instituto Politécnico Nacional2
01 Feb 2015-Fuel Processing Technology
TL;DR: In this article, a model mixture composed by quinoline, indole, and carbazole in hexadecane/toluene was used to run experiments with a feed/IL ratio of 20/1 and 30°C.

31 citations

Journal ArticleDOI
Anti-inflammatory and anti-bacterial activity, and cytotoxicity of halloysite surfaces.

[...]

Javiera Cervini-Silva1, Javiera Cervini-Silva2, Antonio Nieto-Camacho3, Eduardo Palacios4, J.A. Montoya4, Virginia Gómez-Vidales3, María Teresa Ramírez-Apan3 
Lawrence Berkeley National Laboratory1, Universidad Autónoma Metropolitana2, National Autonomous University of Mexico3, Mexican Institute of Petroleum4
01 Nov 2013-Colloids and Surfaces B: Biointerfaces
TL;DR: The low extent of infiltration at shorter reaction times confirmed a limiting number of active surface sites, and the anti-inflammatory activity followed the order: PA>JA>NA, and remained invariant with time.

31 citations

Journal ArticleDOI
Theoretical study of the activation of methane by photoexcited zinc atoms

[...]

S. Castillo1, Alejandro Ramírez-Solís1, D. Díaz1, E. Poulain1, Octavio Novaro2 
Mexican Institute of Petroleum1, National Autonomous University of Mexico2
01 Mar 1994-Molecular Physics
TL;DR: In this article, the Zn(1P) + CH4 reactants follow the 2A′ attractive surface until they reach the originally repulsive 1A′ surface originating from the Zns(1S) + HZnCH3 reactants, and an avoided crossing is generated implying a non-adiabatic transition.
Abstract: The Zn + CH4 reaction has been studied through self-consistent field followed by extensive variational and perturbational second-order Moller-Plesset multi-reference configuration interaction (CIPSI) calculations using extended Gaussian basis sets. Results indicate that for the formation of the HZnCH3 intermediate a previous excitation of Zn(1S) to its (1P) excited state is necessary. The following mechanism is proposed: the Zn(1P) + CH4 reactants follow the 2A′ attractive surface until they reach the originally repulsive 1A′ surface originating from the Zn(1S) + CH4 reactants. An avoided crossing is generated implying a non-adiabatic transition. When the 1A′ surface reaches the avoided crossing it becomes attractive leading to the C3v HZnCH3 intermediate which is stable and needs 63·9 kcal mol-1 to yield, without an activation barrier, the HZn + CH3 products or 69·3 kcal mol-1 to yield the H + ZnCH3 products. The Zn(3P) + CH4 reaction pathway presents a transition state 18 kcal mol-1 above the initial re...

31 citations

Authors

Showing all 3282 results

NameH-indexPapersCitations
Ignacio E. Grossmann11277646185
Yiu-Wing Mai97104846486
Guilherme Borges7944660833
Francesc Illas7666124741
Zhong-Zhen Yu7525421817
Jim A. Field7232916239
Oliver C. Mullins6640617060
Gilbert F. Froment5816913856
Joaquín Pérez-Pariente5724513751
Annia Galano5520910216
Miguel Castro5415820334
Francisco Ortega512778135
Rubén Pérez5136911853
Jorge Ancheyta502558484
Shi-Hai Dong502226756
Network Information
Related Institutions (5)
East China University of Science and Technology
36.4K papers, 763.1K citations

85% related

National Autonomous University of Mexico
127.7K papers, 2.2M citations

85% related

Instituto Politécnico Nacional
63.3K papers, 938.5K citations

85% related

Delft University of Technology
94.4K papers, 2.7M citations

83% related

Tianjin University
79.9K papers, 1.2M citations

83% related

Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20233
202216
2021104
2020119
2019104
2018138