ＡＭＡＮＯＰＡＴＩＮＯＭｉｄｏｒｉＥｓｔｅｆａｎｉ

Last Update: 2019/10/30 17:46:02

Name(Kanji/Kana/Abecedarium Latinum)

ＡＭＡＮＯＰＡＴＩＮＯＭｉｄｏｒｉＥｓｔｅｆａｎｉ/アマノパチノミドリエステファニ/Amanopatino, Midoriestefani

Primary Affiliation(Org1/Job title)

Institute for Chemical Research (ICR)/Program-Specific Assistant Professor

E-mail Address

amanopatino.midoriestefani.3e ＠ kyoto-u.ac.jp

Academic Degree

Field(Japanese)	Field(English)	University(Japanese)	University(English)	Method
Ｐｈ．Ｄ．		University of Oxford

Graduate School

University(Japanese)	University(English)	Faculty(Japanese)	Faculty(English)	Major(Japanese)	Major(English)	Degree
University of Oxford		Faculty of Physical Sciences, Department of Chemistry, Dphil in Inorganic Chemistry				修了

Undergraduate School / Major(s)

University(Japanese)	Faculty(Japanese)	Degree
Colegio Madrid S．A． de C．V．		卒業
National Autonomus University of Mexico	Faculty of Chemistry，Bachelor in Chemistry	卒業
National Autonomus University of Mexico	Institute of Materials Research，Bachelor Research Project	卒業

Work Experience

Period	Organization(English)	Job title(English)
2017/04/02-2018/12/31	Japan Society for the Promotion of Science	JSPS Postdoctoral Fellow
2017/01/-2017/03/	Market Stone S.A. de C.V.	Research Manager
2012/10/-2016/12/	Inorganic Chemistry Laboratory, University of Oxford	Laboratory Course Junior Demonstrator

Personal Profile

(English)
My major is in Inorganic Solid State Chemistry and I have worked extensively in the synthesis and characterization of complex transition-metal oxide materials exhibiting magnetic and electric properties. On the side of the synthesis, my research has mainly focused in the preparation of metastable perovskite-structure materials by topochemical (structure preserving) methods. Such methods enable stabilization of thermodynamically metastable products of solid state reactions, by utilizing the different rates of mobility of cations with respect to anions or vice versa. Metastable materials often exhibit non-conventional oxidation states and coordination geometries, which in turn result in exciting magnetic and electric behaviour among physical properties. Recently, I have been exploring the application of topochemical synthetic approaches for investigation of the structural aspects which affect oxide-ion conduction in materials for potential applications in Solid Oxide Fuel Cells (SOFCs).

(English)

My major is in Inorganic Solid State Chemistry and I have worked extensively in the synthesis and characterization of complex transition-metal oxide materials exhibiting magnetic and electric properties. On the side of the synthesis, my research has mainly focused in the preparation of metastable perovskite-structure materials by topochemical (structure preserving) methods. Such methods enable stabilization of thermodynamically metastable products of solid state reactions, by utilizing the different rates of mobility of cations with respect to anions or vice versa. Metastable materials often exhibit non-conventional oxidation states and coordination geometries, which in turn result in exciting magnetic and electric behaviour among physical properties. Recently, I have been exploring the application of topochemical synthetic approaches for investigation of the structural aspects which affect oxide-ion conduction in materials for potential applications in Solid Oxide Fuel Cells (SOFCs).

Language of Instruction

Language
Spanish
English
Japanese

ORCID ID

https://orcid.org/0000-0003-2560-8584

researchmap URL

https://researchmap.jp/Amano-Patino_MidoriE

Research Topics

(English)
Materials chemistry / Device related chemistry / Solid state materials with technologically relevant magnetic and electric properties Materials chemistry / Device related chemistry / Solid state materials for applications in sustainable technologies

Overview of the research

(English)
During my undergraduate studies at the National Autonomous University of Mexico (UNAM), I was able to gain some research experience and learn different characterization techniques by taking part in a number of research projects from my first term. To obtain my BSc in chemistry I participated in the research project Synthesis and Characterization of Materials for Magnetic Refrigeration (PAPIIT, IN104310) in the Institute of Materials Sciences (IIM) at UNAM. I was awarded a research grant to carry out my thesis project, Synthesis, Structure and Magnetic Properties of the Manganite Series La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00) with special focus on the magnetocaloric effect. The synthesis techniques for the preparation of the La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00) series involved both ceramic and alternative ‘wet’ methods (modified according to the needs from the one reported by Pechini). The structural and chemical characterization of these materials involved laboratory X-ray powder diffraction, HRTEM imaging, TGA-DSC measurements, and XPS and EDS analyses. The magnetic characterization was carried out using vibrating sample magnetometry techniques, and thermogravimetry-magnetic susceptibility apparatus along with magnetoresistance apparatus. I carried out my doctoral studies in the group of Prof. Michael Hayward at the University of Oxford in the UK. My DPhil project involved synthesis techniques which utilize the different rates of ion diffusion in solid state transition metal oxide phases. By operating at low temperatures (<< 1000 ºC) it is possible to stabilize kinetic metastable products which preserve the main topology of the starting materials during a chemical change (a ‘topochemical’ process). This allows the preparation of materials which are otherwise inaccessible via conventional solid state ceramic methods. This approach has allowed me to prepare a variety of interesting metastable materials which I have been able to characterize using both standard Laboratory techniques (X-ray diffraction, TGA, titrations), as well as state-of-the-art central facilities (such as the neutron sources at the Rutherford Appleton Laboratory in the UK, and the ILL in France): After completing my doctoral studies I was granted a JSPS Postdoctoral Fellowship and joined the laboratory of Prof. Yuichi Shimakawa to work on the preparation and characterization of high-valence transition-metal oxides by using high-pressure techniques. Along with the exploration of the influence of cation substitution on the charge-transfer behavior in transition-metal oxides containing iron, the work has focused on researching cation-ordered structures exhibiting intriguing magnetic and electronic properties. An additional line of research during my JSPS focused on the exploration of the oxide-ion conductivity in perovskite and perovskite-related cation-ordered materials prepared via topochemical methods. Recent focus on the rates of extraction and incorporation of oxygen-ions in cation-ordered materials has recently turned into a successful proposal which enabled me to secure a position as a project specific assistant professor at the Research Unit for the Development of Global Sustainability at Kyoto University.

(English)

During my undergraduate studies at the National Autonomous University of Mexico (UNAM), I was able to gain some research experience and learn different characterization techniques by taking part in a number of research projects from my first term. To obtain my BSc in chemistry I participated in the research project Synthesis and Characterization of Materials for Magnetic Refrigeration (PAPIIT, IN104310) in the Institute of Materials Sciences (IIM) at UNAM. I was awarded a research grant to carry out my thesis project, Synthesis, Structure and Magnetic Properties of the Manganite Series La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00) with special focus on the magnetocaloric effect. The synthesis techniques for the preparation of the La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00) series involved both ceramic and alternative ‘wet’ methods (modified according to the needs from the one reported by Pechini). The structural and chemical characterization of these materials involved laboratory X-ray powder diffraction, HRTEM imaging, TGA-DSC measurements, and XPS and EDS analyses. The magnetic characterization was carried out using vibrating sample magnetometry techniques, and thermogravimetry-magnetic susceptibility apparatus along with magnetoresistance apparatus. I carried out my doctoral studies in the group of Prof. Michael Hayward at the University of Oxford in the UK. My DPhil project involved synthesis techniques which utilize the different rates of ion diffusion in solid state transition metal oxide phases. By operating at low temperatures (<< 1000 ºC) it is possible to stabilize kinetic metastable products which preserve the main topology of the starting materials during a chemical change (a ‘topochemical’ process). This allows the preparation of materials which are otherwise inaccessible via conventional solid state ceramic methods. This approach has allowed me to prepare a variety of interesting metastable materials which I have been able to characterize using both standard Laboratory techniques (X-ray diffraction, TGA, titrations), as well as state-of-the-art central facilities (such as the neutron sources at the Rutherford Appleton Laboratory in the UK, and the ILL in France): After completing my doctoral studies I was granted a JSPS Postdoctoral Fellowship and joined the laboratory of Prof. Yuichi Shimakawa to work on the preparation and characterization of high-valence transition-metal oxides by using high-pressure techniques. Along with the exploration of the influence of cation substitution on the charge-transfer behavior in transition-metal oxides containing iron, the work has focused on researching cation-ordered structures exhibiting intriguing magnetic and electronic properties. An additional line of research during my JSPS focused on the exploration of the oxide-ion conductivity in perovskite and perovskite-related cation-ordered materials prepared via topochemical methods. Recent focus on the rates of extraction and incorporation of oxygen-ions in cation-ordered materials has recently turned into a successful proposal which enabled me to secure a position as a project specific assistant professor at the Research Unit for the Development of Global Sustainability at Kyoto University.

Fields of research (key words)

Key words(Japanese)	Key words(English)
	Inorganic Chemistry
	Topochemical Synthesis Methods
	Perovskite Structure Materials
	High Pressure Synthesis
	Solid State Chemistry
	Magnetic and Electric Properties of Solids

Published Papers

Author	Author(Japanese)	Author(English)	Title	Title(Japanese)	Title(English)	Bibliography	Bibliography(Japanese)	Bibliography(English)	Publication date	Refereed paper	Disclose
Koedtruad A, Goto M, Amano Patino M, Tan Z, Guo H, Nakamura T, Handa T, Chen W.-T, Chuang Y.-C, Sheu H.-S, Saito T, Kan D, Kanemitsu Y, Wakamiya A, Shimakawa Y.	Koedtruad A, Goto M, Amano Patino M, Tan Z, Guo H, Nakamura T, Handa T, Chen W.-T, Chuang Y.-C, Sheu H.-S, Saito T, Kan D, Kanemitsu Y, Wakamiya A, Shimakawa Y.	Koedtruad A, Goto M, Amano Patino M, Tan Z, Guo H, Nakamura T, Handa T, Chen W.-T, Chuang Y.-C, Sheu H.-S, Saito T, Kan D, Kanemitsu Y, Wakamiya A, Shimakawa Y.	Structure-property relations in Ag-Bi-I compounds: Potential Pb-free absorbers in solar cells	Structure-property relations in Ag-Bi-I compounds: Potential Pb-free absorbers in solar cells	Structure-property relations in Ag-Bi-I compounds: Potential Pb-free absorbers in solar cells	Journal of Materials Chemistry A, 7, 10, 5583-5588	Journal of Materials Chemistry A, 7, 10, 5583-5588	Journal of Materials Chemistry A, 7, 10, 5583-5588	2019	Refereed	Disclose to all
Amano Patino M, Zeng D, Blundell S.J, McGrady J.E, Hayward M.A.	Amano Patino M, Zeng D, Blundell S.J, McGrady J.E, Hayward M.A.	Amano Patino M, Zeng D, Blundell S.J, McGrady J.E, Hayward M.A.	Extreme Sensitivity of a Topochemical Reaction to Cation Substitution: SrVO2H versus SrV1-xTixO1.5H1.5	Extreme Sensitivity of a Topochemical Reaction to Cation Substitution: SrVO2H versus SrV1-xTixO1.5H1.5	Extreme Sensitivity of a Topochemical Reaction to Cation Substitution: SrVO2H versus SrV1-xTixO1.5H1.5	Inorganic Chemistry, 57, 5, 2890-2898	Inorganic Chemistry, 57, 5, 2890-2898	Inorganic Chemistry, 57, 5, 2890-2898	2018	Refereed	Disclose to all
Tan Z, Saito T, Denis Romero F, Amano Patino M, Goto M, Chen W.-T, Chuang Y.-C, Sheu H.-S, Shimakawa Y.	Tan Z, Saito T, Denis Romero F, Amano Patino M, Goto M, Chen W.-T, Chuang Y.-C, Sheu H.-S, Shimakawa Y.	Tan Z, Saito T, Denis Romero F, Amano Patino M, Goto M, Chen W.-T, Chuang Y.-C, Sheu H.-S, Shimakawa Y.	Hexagonal Perovskite Ba4Fe3NiO12 Containing Tetravalent Fe and Ni Ions	Hexagonal Perovskite Ba4Fe3NiO12 Containing Tetravalent Fe and Ni Ions	Hexagonal Perovskite Ba4Fe3NiO12 Containing Tetravalent Fe and Ni Ions	Inorganic Chemistry, 57, 16, 10410-10415	Inorganic Chemistry, 57, 16, 10410-10415	Inorganic Chemistry, 57, 16, 10410-10415	2018	Refereed	Disclose to all
Denis Romero F, Xiong P, Amano Patino M, Saito T, Kayser P, Attfield J.P, Shimakawa Y.	Denis Romero F, Xiong P, Amano Patino M, Saito T, Kayser P, Attfield J.P, Shimakawa Y.	Denis Romero F, Xiong P, Amano Patino M, Saito T, Kayser P, Attfield J.P, Shimakawa Y.	Suppression of Sequential Charge Transitions in Ca0.5Bi0.5FeO3 via B-Site Cobalt Substitution	Suppression of Sequential Charge Transitions in Ca0.5Bi0.5FeO3 via B-Site Cobalt Substitution	Suppression of Sequential Charge Transitions in Ca0.5Bi0.5FeO3 via B-Site Cobalt Substitution	Chemistry of Materials, 30, 15, 5493-5499	Chemistry of Materials, 30, 15, 5493-5499	Chemistry of Materials, 30, 15, 5493-5499	2018	Refereed	Disclose to all
Yamamoto Takafumi, Zeng Dihao, Kawakami Takateru, Arcisauskaite Vaida, Yata Kanami, Patino Midori Amano, Izumo Nana, McGrady John E, Kageyama Hiroshi, Hayward Michael A	Yamamoto Takafumi, Zeng Dihao, Kawakami Takateru, Arcisauskaite Vaida, Yata Kanami, Patino Midori Amano, Izumo Nana, McGrady John E, Kageyama Hiroshi, Hayward Michael A	Yamamoto Takafumi, Zeng Dihao, Kawakami Takateru, Arcisauskaite Vaida, Yata Kanami, Patino Midori Amano, Izumo Nana, McGrady John E, Kageyama Hiroshi, Hayward Michael A	The role of π-blocking hydride ligands in a pressure-induced insulator-to-metal phase transition in SrVO2H	The role of π-blocking hydride ligands in a pressure-induced insulator-to-metal phase transition in SrVO2H	The role of π-blocking hydride ligands in a pressure-induced insulator-to-metal phase transition in SrVO2H	Nature Communications, 8, 1, 1217	Nature Communications, 8, 1, 1217	Nature Communications, 8, 1, 1217	2017	Refereed	Disclose to all
Patino Midori Amano, Zeng Dihao, Bower Ryan, McGrady John E, Hayward Michael A	Patino Midori Amano, Zeng Dihao, Bower Ryan, McGrady John E, Hayward Michael A	Patino Midori Amano, Zeng Dihao, Bower Ryan, McGrady John E, Hayward Michael A	Coupled Electronic and Magnetic Phase Transition in the Infinite-Layer Phase LaSrNiRuO4	Coupled Electronic and Magnetic Phase Transition in the Infinite-Layer Phase LaSrNiRuO4	Coupled Electronic and Magnetic Phase Transition in the Infinite-Layer Phase LaSrNiRuO4	Inorganic Chemistry, 55, 17, 9012	Inorganic Chemistry, 55, 17, 9012	Inorganic Chemistry, 55, 17, 9012	2016/09	Refereed	Disclose to all
{Amano Patino} Midori, Hayward M	{Amano Patino} Midori, Hayward M	{Amano Patino} Midori, Hayward M	Topochemical Manipulation of Some Complex Transition Metal Oxides	Topochemical Manipulation of Some Complex Transition Metal Oxides	Topochemical Manipulation of Some Complex Transition Metal Oxides	, 228	, 228	, 228	2016	Refereed	Disclose to all
{ME Amano I Betancourt MJ Arellano-Jimenez JL S{\'{a}}nchez-Llamazares} CF S{\'{a}}nchez-Vald{\'{e}}s	{ME Amano I Betancourt MJ Arellano-Jimenez JL S{\'{a}}nchez-Llamazares} CF S{\'{a}}nchez-Vald{\'{e}}s	{ME Amano I Betancourt MJ Arellano-Jimenez JL S{\'{a}}nchez-Llamazares} CF S{\'{a}}nchez-Vald{\'{e}}s	Magnetocaloric response of submicron (LaAg)MnO3 manganite obtained by Pechini method	Magnetocaloric response of submicron (LaAg)MnO3 manganite obtained by Pechini method	Magnetocaloric response of submicron (LaAg)MnO3 manganite obtained by Pechini method	Journal of Sol-Gel Science and Technology, 78, 1, 159	Journal of Sol-Gel Science and Technology, 78, 1, 159	Journal of Sol-Gel Science and Technology, 78, 1, 159	2016	Refereed	Disclose to all
Amano M. E, Betancourt I, {S{\'{a}}nchez Llamazares} J. L, Huerta L, S{\'{a}}nchez-Vald{\'{e}}s C. F.	Amano M. E, Betancourt I, {S{\'{a}}nchez Llamazares} J. L, Huerta L, S{\'{a}}nchez-Vald{\'{e}}s C. F.	Amano M. E, Betancourt I, {S{\'{a}}nchez Llamazares} J. L, Huerta L, S{\'{a}}nchez-Vald{\'{e}}s C. F.	Mixed-valence La0.80(Ag1-xSrx)0.20MnO3manganites with magnetocaloric effect	Mixed-valence La0.80(Ag1-xSrx)0.20MnO3manganites with magnetocaloric effect	Mixed-valence La0.80(Ag1-xSrx)0.20MnO3manganites with magnetocaloric effect	Journal of Materials Science, 49, 2, 633	Journal of Materials Science, 49, 2, 633	Journal of Materials Science, 49, 2, 633	2014	Refereed	Disclose to all
Luo Kun, {Amano Patino} Midori, Hayward Michael A.	Luo Kun, {Amano Patino} Midori, Hayward Michael A.	Luo Kun, {Amano Patino} Midori, Hayward Michael A.	Ca2Cr0.5Ga1.5O5 — An extremely redox-stable brownmillerite phase	Ca2Cr0.5Ga1.5O5 — An extremely redox-stable brownmillerite phase	Ca2Cr0.5Ga1.5O5 — An extremely redox-stable brownmillerite phase	Journal of Solid State Chemistry, 222, 71	Journal of Solid State Chemistry, 222, 71	Journal of Solid State Chemistry, 222, 71	2014	Refereed	Disclose to all
Amano Patino M, Smith T, Zhang W, Halasyamani P.S, Hayward M.A.	Amano Patino M, Smith T, Zhang W, Halasyamani P.S, Hayward M.A.	Amano Patino M, Smith T, Zhang W, Halasyamani P.S, Hayward M.A.	Cation exchange in a 3D perovskite - Synthesis of Ni0.5TaO3	Cation exchange in a 3D perovskite - Synthesis of Ni0.5TaO3	Cation exchange in a 3D perovskite - Synthesis of Ni0.5TaO3	Inorganic Chemistry, 53, 15, 8020-8024	Inorganic Chemistry, 53, 15, 8020-8024	Inorganic Chemistry, 53, 15, 8020-8024	2014	Refereed	Disclose to all
Amano M E, Betancourt I, Huerta L	Amano M E, Betancourt I, Huerta L	Amano M E, Betancourt I, Huerta L	Magnetic Properties of Mixed Valence La(AgSr)MnO3 Manganites Obtained by Solid-State Reaction Method	Magnetic Properties of Mixed Valence La(AgSr)MnO3 Manganites Obtained by Solid-State Reaction Method	Magnetic Properties of Mixed Valence La(AgSr)MnO3 Manganites Obtained by Solid-State Reaction Method	Journal of the American Ceramic Society, 96, 3, 812	Journal of the American Ceramic Society, 96, 3, 812	Journal of the American Ceramic Society, 96, 3, 812	2013	Refereed	Disclose to all
			Síntesis, estructura y propiedades magnéticas de manganitas La0. 80 (Ag1-xSrx) 0.20 MnO3 (x= 0.00–1.00)	Síntesis, estructura y propiedades magnéticas de manganitas La0. 80 (Ag1-xSrx) 0.20 MnO3 (x= 0.00–1.00)	Síntesis, estructura y propiedades magnéticas de manganitas La0. 80 (Ag1-xSrx) 0.20 MnO3 (x= 0.00–1.00)	Superficies y vacío	Superficies y vacío	Superficies y vacío	2010	Refereed	Disclose to all
<< < > >> Title language:

Conference Activities & Talks

Title	Title(Japanese)	Title(English)	Conference	Conference(Japanese)	Conference(English)	Date	Language	Assortment	Disclose
Unusual magnetic ordering and switching of iron spins at the A'-sites in CaFe3Ti4O12	Unusual magnetic ordering and switching of iron spins at the A'-sites in CaFe3Ti4O12	Unusual magnetic ordering and switching of iron spins at the A'-sites in CaFe3Ti4O12	Core-to-Core Symposium	Core-to-Core Symposium	Core-to-Core Symposium	2019/06	English	Symposium workshop panel(nominated)	Disclose to all
Unusual magnetic spin ordering and switching of square-planar Fe2+ in CaFe3Ti4O12[Invited]	Unusual magnetic spin ordering and switching of square-planar Fe2+ in CaFe3Ti4O12 [Invited]	Unusual magnetic spin ordering and switching of square-planar Fe2+ in CaFe3Ti4O12 [Invited]	International Conference of Computational Methods in Sciences and Engineering (ICCMSE)	International Conference of Computational Methods in Sciences and Engineering (ICCMSE)	International Conference of Computational Methods in Sciences and Engineering (ICCMSE)	2019/05	English	Oral presentation(invited, special)	Disclose to all
Magnetic order of A'-site iron spins in CaFe3Ti4O12 and field-induced switching	Magnetic order of A'-site iron spins in CaFe3Ti4O12 and field-induced switching	Magnetic order of A'-site iron spins in CaFe3Ti4O12 and field-induced switching	The Chemical Society of Japan (CSJ) Annual Meeting	The Chemical Society of Japan (CSJ) Annual Meeting	The Chemical Society of Japan (CSJ) Annual Meeting	2019/03	English	Oral presentation(general)	Disclose to all
Field-induced Magnetic Order Switching of A’-site Iron Spins in CaFe3Ti4O12	Field-induced Magnetic Order Switching of A’-site Iron Spins in CaFe3Ti4O12	Field-induced Magnetic Order Switching of A’-site Iron Spins in CaFe3Ti4O12	The Materials Research Society (MRS) Fall Meeting	The Materials Research Society (MRS) Fall Meeting	The Materials Research Society (MRS) Fall Meeting	2018/11	English	Poster presentation	Disclose to all
Structural and Magnetic Properties of Cation-ordered Perovskite Structure Materials Containing A-site Iron	Structural and Magnetic Properties of Cation-ordered Perovskite Structure Materials Containing A-site Iron	Structural and Magnetic Properties of Cation-ordered Perovskite Structure Materials Containing A-site Iron	The Chemical Society of Japan (CSJ) Annual Meeting	The Chemical Society of Japan (CSJ) Annual Meeting	The Chemical Society of Japan (CSJ) Annual Meeting	2018/03	English	Oral presentation(general)	Disclose to all
Structural and Magnetic Properties of Quadruple Perovskites containing A-site Iron	Structural and Magnetic Properties of Quadruple Perovskites containing A-site Iron	Structural and Magnetic Properties of Quadruple Perovskites containing A-site Iron	JSPS Core-to-Core Winter Meeting	JSPS Core-to-Core Winter Meeting	JSPS Core-to-Core Winter Meeting	2017/12		Oral presentation(invited, special)	Disclose to all
Topochemical Reduction of Some Complex Ruthenium Oxides	Topochemical Reduction of Some Complex Ruthenium Oxides	Topochemical Reduction of Some Complex Ruthenium Oxides	European Conference on Solid State Chemistry	European Conference on Solid State Chemistry	European Conference on Solid State Chemistry	2015/08	English	Poster presentation	Disclose to all
Topochemical Manipulation of Some Complex Transition Metal Oxides	Topochemical Manipulation of Some Complex Transition Metal Oxides	Topochemical Manipulation of Some Complex Transition Metal Oxides	Oxford Inorganic Graduate Research Conference	Oxford Inorganic Graduate Research Conference	Oxford Inorganic Graduate Research Conference	2015/04	English	Oral presentation(invited, special)	Disclose to all
Low-Temperature Anion Chemistry of Some Complex Transition Metal Oxides	Low-Temperature Anion Chemistry of Some Complex Transition Metal Oxides	Low-Temperature Anion Chemistry of Some Complex Transition Metal Oxides	The Solid State Materials Seminar of the University of Oxford	The Solid State Materials Seminar of the University of Oxford	The Solid State Materials Seminar of the University of Oxford	2015/03	English	Oral presentation(invited, special)	Disclose to all
Cation Exchanges on 3D Perovskite Structures	Cation Exchanges on 3D Perovskite Structures	Cation Exchanges on 3D Perovskite Structures	Advanced Inorganic Materials: Synthesis, Processing, Measurement and Computation	Advanced Inorganic Materials: Synthesis, Processing, Measurement and Computation	Advanced Inorganic Materials: Synthesis, Processing, Measurement and Computation	2014/09	English	Poster presentation	Disclose to all
Cation Exchanges as a Novel Route to Multiferroic Materials	Cation Exchanges as a Novel Route to Multiferroic Materials	Cation Exchanges as a Novel Route to Multiferroic Materials	Oxford Symposium on Quantum Materials	Oxford Symposium on Quantum Materials	Oxford Symposium on Quantum Materials	2014/05	English	Poster presentation	Disclose to all
Cation exchanges, a route to multiferroics	Cation exchanges, a route to multiferroics	Cation exchanges, a route to multiferroics	UK Neutron and Muon Users Meeting	UK Neutron and Muon Users Meeting	UK Neutron and Muon Users Meeting	2014/04	English	Poster presentation	Disclose to all
Synthesis and characterization of La(SrAg)MnO3 manganites with magnetocaloric effect	Synthesis and characterization of La(SrAg)MnO3 manganites with magnetocaloric effect	Synthesis and characterization of La(SrAg)MnO3 manganites with magnetocaloric effect	International Materials Research Congress (IMRC)	International Materials Research Congress (IMRC)	International Materials Research Congress (IMRC)	2010/08	English	Poster presentation	Disclose to all
Síntesis, estructura y propiedades magnéticas de manganitas La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00)	Síntesis, estructura y propiedades magnéticas de manganitas La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00)	Síntesis, estructura y propiedades magnéticas de manganitas La0.80(Ag1-xSrx)0.20MnO3 (x = 0.00 – 1.00)	1st National Congress of Materials	1st National Congress of Materials	1st National Congress of Materials	2010/02	Spanish	Oral presentation(general)	Disclose to all
<< < > >> Title language:

Awards

Title(English)	Organization name(Japanese)	Organization name(English)	Date
Presentation Award	日本化学会 (CSJ)	The Chemical Society of Japan (CSJ)	2019
Research Fellowship	日本学術振興会	Japan Society for the Promotion of Science (JSPS)	2017
Graduate Fellowship	University of Oxford, Balliol College	University of Oxford, Balliol College	2012
Dissertation Merit Award	National Autonomous University of Mexico (UNAM)	National Autonomous University of Mexico (UNAM)	2011
Project Award	Research for Innovation and Technology Programme (PAPIIT)	Research for Innovation and Technology Programme (PAPIIT)	2010
Award for Bachelor Thesis Work	Institute of Materials Sciences (IIM-UNAM)	Institute of Materials Sciences (IIM-UNAM)	2010
Award for Scholastic Achievement	High Demand Academic Program (PAEA)	High Demand Academic Program (PAEA)	2009

Other research activities

Title	Location	Misc	Period
External Examiner	Universidad Complutense de Madrid	Doctoral Programme on Advanced Chemistry	2019/08/29-2019/09/16
Organizer of Core-to-Core Symposium	ICR, Kyoto University	Invited Speakers from the University of Edinburgh	2019/06/28-2019/06/28
Research stay: Coordinated Compounds of Copper as Biomimetic Catalytists for Oxidation Processes	Inorganic and Nuclear Chemistry Department, Chemistry Faculty, UNAM		2008/01/-2009/01/
Research Stay: Experimental Model for the Removal of Pollutants and Metals from Waste Waters by Means of Natural and Physicochemical Processes	Institute of Engineering (IINGEN), UNAM		2009/07/-2010/01/
Research stay: Study of TiO2 layers by electro-deposition	Physical Chemistry Department, Institute of Chemistry (IQ), UNAM		2009/05/-2009/06/
Research stay: Energetic Metabolism of the Pathogenic Bacterium Helicobacter Pylori	Biochemistry department, Laboratory 2, Faculty of Medicine, UNAM		2006/01/-2006/06/

ＡＭＡＮＯＰＡＴＩＮＯ ＭｉｄｏｒｉＥｓｔｅｆａｎｉ

ＡＭＡＮＯＰＡＴＩＮＯＭｉｄｏｒｉＥｓｔｅｆａｎｉ