{"id":4540,"date":"2021-12-22T07:38:47","date_gmt":"2021-12-22T07:38:47","guid":{"rendered":"https:\/\/bioingenieria.zeus.umh.es\/grupo-de-diseno-molecular\/"},"modified":"2022-03-23T11:44:19","modified_gmt":"2022-03-23T11:44:19","slug":"grupo-de-diseno-molecular","status":"publish","type":"page","link":"https:\/\/bioingenieria.umh.es\/en\/unidad-de-quimica-organica\/grupo-de-diseno-molecular\/","title":{"rendered":"Grupo de Dise\u00f1o Molecular"},"content":{"rendered":"

[et_pb_section fb_built=”1″ fullwidth=”on” disabled_on=”on|on|on” admin_label=”Secci\u00f3n” _builder_version=”3.22″ disabled=”on”][et_pb_fullwidth_header title=”Dise\u00f1o Molecular” text_orientation=”center” content_max_width=”none” admin_label=”T\u00edtulo de anchura completa” _builder_version=”3.16″ background_color=”#649922″ button_one_letter_spacing_hover=”0″ button_two_letter_spacing_hover=”0″ button_one_text_size__hover_enabled=”off” button_two_text_size__hover_enabled=”off” button_one_text_color__hover_enabled=”off” button_two_text_color__hover_enabled=”off” button_one_border_width__hover_enabled=”off” button_two_border_width__hover_enabled=”off” button_one_border_color__hover_enabled=”off” button_two_border_color__hover_enabled=”off” button_one_border_radius__hover_enabled=”off” button_two_border_radius__hover_enabled=”off” button_one_letter_spacing__hover_enabled=”on” button_one_letter_spacing__hover=”0″ button_two_letter_spacing__hover_enabled=”on” button_two_letter_spacing__hover=”0″ button_one_bg_color__hover_enabled=”off” button_two_bg_color__hover_enabled=”off”][\/et_pb_fullwidth_header][\/et_pb_section][et_pb_section fb_built=”1″ disabled_on=”on|on|on” admin_label=”section” _builder_version=”3.22″ disabled=”on”][et_pb_row padding_mobile=”off” column_padding_mobile=”on” admin_label=”row” _builder_version=”3.25″ background_size=”initial” background_position=”top_left” background_repeat=”repeat” max_width=”980px” make_fullwidth=”off” use_custom_width=”on” width_unit=”on” custom_width_px=”980px”][et_pb_column type=”4_4″ _builder_version=”3.25″ custom_padding=”|||” custom_padding__hover=”|||”][et_pb_tabs admin_label=”Pesta\u00f1as” _builder_version=”4.2.2″ tab_font=”Roboto||||” tab_line_height=”1.4em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” use_border_color=”off” border_color=”#ffffff” border_style=”solid”][et_pb_tab title=”Informaci\u00f3n” _builder_version=”4.2.2″ body_font=”||||” body_line_height=”2em” tab_font=”||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n\n\n\n\n
Responsable<\/strong><\/td>\n\u00c1ngela Sastre\u00a0Santos<\/td>\n<\/tr>\n
Web propia<\/strong><\/td>\nhttp:\/\/quimicaorganica.umh.es<\/a><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

 <\/p>\n

RESUMEN DE LA INVESTIGACI\u00d3N<\/strong><\/h4>\n

Nuestro principal objetivo es la s\u00edntesis y organizaci\u00f3n supramolecular de sistemas electroactivos basados en ftalocianinas (Pcs) y dicetopirrolos (DPPs) como sistemas fotosint\u00e9ticos artificiales, para el tratamiento molecular fotovoltaico y anticanceroso. Las Pcs son an\u00e1logos de las porfirinas con, generalmente, estructura planar y alta conjugaci\u00f3n del anillo central (18 \u03c0-electrones). Presentan propiedades interesantes para su aplicaci\u00f3n en c\u00e9lulas fotovoltaicas, especialmente una fuerte absorbencia en la regi\u00f3n de la radiaci\u00f3n visible e infrarroja cercana y una alta estabilidad t\u00e9rmica y qu\u00edmica. Por otro lado, los DPP poseen propiedades de absorbencia excepcionales en la regi\u00f3n de 500-600 nm, un fuerte rendimiento fluorescente adem\u00e1s de una gran estabilidad. Una caracter\u00edstica com\u00fan de los materiales basados en DPP es su potencial de oxidaci\u00f3n relativamente alto, que da lugar a estados de separaci\u00f3n de carga de alta energ\u00eda cuando se combinan con sistemas aceptores y, en consecuencia, se obtienen altos voltajes en las c\u00e9lulas solares. Por estas razones, los DPP, ya sea como pol\u00edmeros o como mol\u00e9culas individuales, est\u00e1n siendo investigados como capa activa en diferentes dispositivos OPV.<\/p>\n

\"dis<\/p>\n

La ftalocianina como modelo bioinspirado de la clorofila f.<\/em><\/p>\n

 <\/p>\n

L\u00cdNEAS DE INVESTIGACI\u00d3N<\/strong><\/h4>\n

 <\/p>\n

L\u00ednea 1: Preparaci\u00f3n de conjuntos donantes-aceptores multicrom\u00f3foros como sistemas de captaci\u00f3n de luz para la conversi\u00f3n de energ\u00eda fotosint\u00e9tica<\/strong><\/h4>\n

Nuestro objetivo es la preparaci\u00f3n de sistemas donante-(aceptor)n [D-(A)n] o aceptor-(donante)n [A-(D)n] compuestos por ftalocianinas y con diferentes tipos de sistemas electroactivos como DPP, pireno, PDI, C60, BODIPY, nanotubos de carbono, grafeno y MoS2 y comprobar su capacidad en configuraciones axiales y perif\u00e9ricas para obtener estados separados de carga de larga duraci\u00f3n para la conversi\u00f3n de energ\u00eda fotosint\u00e9tica. Comprobaremos diferentes estrategias para conectar Pcs al N-grafeno dopado y a otros materiales semiconductores 2D como el MoS2. Elegiremos sustituyentes en la ftalocianina que puedan dar al macrociclo un car\u00e1cter donante o aceptor.<\/p>\n

L\u00ednea 2: Preparaci\u00f3n de sistemas de ftalocianinas y diketopirroles para la organizaci\u00f3n de MOFs y SURMOFs<\/strong><\/h4>\n

Los Pcs y DPPs muestran un gran potencial como nuevos enlazadores para MOFs. Presentan diferentes propiedades que los convierten en un objetivo para la generaci\u00f3n de nuevos e innovadores MOFs. Los Pcs y DPPs son f\u00e1cilmente funcionalizables, son sim\u00e9tricos permitiendo la generaci\u00f3n de estructuras cristalinas, tienen una gran cantidad de electrones \u03c0 deslocalizados, son \u00f3pticamente activos, y tambi\u00e9n pueden generar especies oxidativas tras la excitaci\u00f3n. Sin embargo, hasta ahora, los Pcs y DPPs han sido escasamente incorporados en estructuras MOFs y SURMOFs.<\/p>\n

\"dis<\/p>\n

SURMOF de Zn-Si-Pc crecido sobre Ag modificado con SAM y su espectro de absorci\u00f3n (la flecha azul corresponde al m\u00e1ximo de absorci\u00f3n del enlazador solvente Si-Pc).<\/span><\/strong><\/em><\/p>\n

 <\/p>\n

L\u00ednea 3: S\u00edntesis de materiales org\u00e1nicos para la energ\u00eda fotovoltaica<\/strong><\/h4>\n

Nuestro grupo trabaja activamente en la incorporaci\u00f3n de Pcs y DPPs como componentes fotoactivos en diferentes dispositivos de c\u00e9lulas solares: c\u00e9lulas solares org\u00e1nicas p-n, como aceptores no fullerenos en c\u00e9lulas solares de heterouni\u00f3n masiva, como fotosensibilizadores en c\u00e9lulas solares sensibilizadas por colorantes, en c\u00e9lulas solares de perovskita, y tambi\u00e9n como intercalares que act\u00faan como materiales transportadores de electrones o de huecos. Como paso previo, investigamos las propiedades fotof\u00edsicas de Pcs y DPPs en relaci\u00f3n con la transferencia de energ\u00eda y\/o electrones fotoinducida.<\/p>\n

\"dis<\/p>\n

 <\/p>\n

L\u00ednea 4: S\u00edntesis de ftalocianinas como metaloides<\/strong><\/h4>\n

Esta l\u00ednea incluye la s\u00edntesis de complejos ciclometalados de oro y platino conjugados con metaloftalocianinas que se utilizar\u00e1n como f\u00e1rmacos anticancer\u00edgenos. Tambi\u00e9n se preparar\u00e1n an\u00e1logos de la texafirina y la ftalocianina que pueden servir como agentes intercalantes de cuadruplexos de ADN. Una vez sintetizados los derivados, los estudios farmacol\u00f3gicos se llevar\u00e1n a cabo en los grupos de investigaci\u00f3n de los colaboradores que est\u00e1n dentro de la red de excelencia en la que participamos denominada “Metalf\u00e1rmacos multifuncionales para el diagn\u00f3stico y la terapia (RED2018-102471-T)”.<\/span><\/strong><\/p>\n

\"dis<\/p>\n

Ftalocianinas como fotosensibilizadores para la terapia fotodin\u00e1mica.<\/span><\/strong><\/em><\/p>\n

[\/et_pb_tab][et_pb_tab title=”Miembros” _builder_version=”4.2.2″ body_font=”Roboto||||” body_line_height=”2em” tab_font=”Roboto||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n\n\n\n\n\n\n\n\n\n\n\n\n
Nombre<\/strong><\/td>\nPuesto<\/strong><\/td>\nCorreo<\/strong><\/td>\nORCID<\/strong><\/td>\n<\/tr>\n
Dr. \u00c1ngela Sastre Santos<\/td>\nProfesor Titular<\/td>\nasastre@umh.es<\/a><\/td>\n0000-0002-8835-2486<\/td>\n<\/tr>\n
Dr. Luis Mart\u00edn Gomis<\/td>\nProfesor Titular<\/td>\nluis.martin@umh.es<\/a><\/td>\n0000-0003-3268-9335<\/td>\n<\/tr>\n
Dr. Javier Ortiz Carricondo<\/td>\nProfesor Titular<\/td>\njortiz@umh.es<\/a><\/td>\n0000-0003-3480-6793<\/td>\n<\/tr>\n
Dr. Desir\u00e9 Molina Alcaide<\/td>\nProfesor Ayudante Doctor<\/td>\nd.molina@umh.es<\/a><\/td>\n0000-0002-1532-2032<\/td>\n<\/tr>\n
Dr. Jorge Follana Bern\u00e1<\/td>\nAyudante<\/td>\njfollana@umh.es<\/a><\/td>\n0000-0002-0142-0520<\/td>\n<\/tr>\n
Maria Joao Albuquerque Martins<\/td>\nEstudiante de doctorado<\/td>\nmalvaro@umh.es<\/a><\/td>\n0000-0002-1316-3082<\/td>\n<\/tr>\n
Adrian Hern\u00e1ndez Garc\u00eda<\/td>\nEstudiante de doctorado<\/td>\nadrian.hernandezg@umh.es<\/a><\/td>\n0000-0002-3599-8216<\/td>\n<\/tr>\n
Julio C\u00e9sar Alvarez <\/td>\nProfesor Contratado Doctor<\/td>\npucela@umh.es<\/a><\/td>\n0000-0003-4826-0875<\/td>\n<\/tr>\n
Concepcion Parejo<\/td>\nProfesor Contratado Doctor<\/td>\nc.parejo@umh.es<\/a><\/td>\n0000-0001-8323-4125<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

[\/et_pb_tab][et_pb_tab title=”Publicaciones” _builder_version=”3.0.48″ body_font=”Roboto||||” body_line_height=”2em” tab_font=”Roboto||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n

M. J. \u00c1lvaro-Martins, .J. G. S\u00e1nchez, G. Lavarda,.D. Molina,. J. Pallar\u00e8s,.T. Torres, L. F. Marsal, \u00c1. Sastre-Santos
\nSubphthalocyanine-Diketopyrrolopyrrole Conjugates: 3D Star-Shaped Systems as Non-Fullerene Acceptors in Polymer Solar Cells with High Open Circuit Voltage<\/strong><\/a>
\nChem Plus Chem. (2021)<\/p>\n

A. A. A. Torimtubun, J. Follana-Bern\u00e1, J. G. S\u00e1nchez, J. Pallar\u00e8s, \u00c1. Sastre-Santos, and L. F. Marsal
\nFluorinated Zinc and Copper Phthalocyanines as Efficient Third Component in Ternary Bulk Heterojunction Solar Cells<\/strong><\/a>
\nACS Applied Energy Materials. (2021)<\/p>\n

J. Follana-Bern\u00e1, R. Farran, W.Leibl, A. Quaranta, \u00c1. Sastre-Santos and Ally Aukauloo
\nPhthalocyanine as Bioinspired Model for Chlorophyll f Containing Photosystem II Pushing Photosynthesis in the Far-Red<\/strong><\/a>
\n\u200eAngew. Chem. Int. Ed. (2021)<\/p>\n

I. K. Sideri, Y. Jang, J. Garc\u00e9s-Garc\u00e9s, \u00c1. Sastre-Santos, R. Canton-Vitoria, R. Kitaura, F. Fern\u00e1ndez-L\u00e1zaro, F. D\u2019Souza and N. Tagmatarchis
\nUnveiling the photoinduced electron-donating character of MoS2 in covalently linked hybrids featuring perylenediimide<\/strong><\/a>
\n\u200eAngew. Chem. Int. Ed. (2021)<\/p>\n

I. Papadopoulos, M. J. \u00c1lvaro-Martins, D. Molina, P. M. McCosker, P. A. Keller, T.Clark, \u00c1. Sastre-Santos and D. M. Guldi
\nSolvent-Dependent Singlet Fission in Diketopyrrolopyrrole Dimers: A Mediating Charge Transfer versus a Trapping Symmetry-Breaking Charge Separation<\/strong><\/a>
\n\u200eAdv. Energy. Mater. 10, 2001496 (2020)<\/p>\n

P. Huang, A. Hern\u00e1ndez, S. Kazim, J. Ortiz, \u00c1. Sastre-Santos, S. Ahmad
\nMolecularly engineered thienyl-triphenylamine substituted zinc phthalocyanine as dopant free hole transporting materials in perovskite solar cells<\/strong><\/a>
\n\u200eSustainable Energy & Fuels. 4, 6188-6195 (2020)<\/p>\n

L. Mart\u00edn-Gomis, S. Seetharaman, D. Herrero, P. A. Karr, F. Fern\u00e1ndez-L\u00e1zaro, F. D\u2019Souza, and \u00c1. Sastre-Santos
\nDistance Dependent Electron Transfer Kinetics in Axially Connected Silicon Phthalocyanine-Fullerene Conjugates<\/strong><\/a>
\nChem. Phys. Chem., 21, 2254-2262 (2020)<\/p>\n

I. Papadopoulos, D. Guti\u00e9rrez-Moreno, P. M. McCosker, R. Casillas, P. A. Keller, \u00c1. Sastre-Santos, T. Clark, F. Fern\u00e1ndez-L\u00e1zaro and D. M. Guldi.
\nPerylene-Monoimides: Singlet Fission Down-Conversion Competes with Up-Conversion by Geminate Triplet-Triplet Recombination<\/strong><\/a>
\nJ. Phys. Chem. A 124, 5727\u20135736 (2020)<\/p>\n

E. J. Canto-Aguilar, D. Guti\u00e9rrez-Moreno, \u00c1. Sastre-Santos, D. Morikawa, M. Abe, F. Fern\u00e1ndez-L\u00e1zaro, G. Oskam and S. Mori
\nIdentification of the loss mechanisms in TiO2 and ZnO solar cells based on blue, piperidinyl-substituted, mono-anhydride perylene dyes<\/strong><\/a>
\nElectrochimica Acta 355; 136638 (2020)<\/p>\n

R. Haldar, Z. Fu, R. Joseph, D. Herrero, L. Mart\u00edn-Gomis, B. S Richards, I. A. Howard, \u00c1. Sastre-Santos and C. W\u00f6ll
\nGuest-Responsive Polaritons in Porous Framework: Chromophoric Sponges in Optical QED Cavities<\/strong><\/a>
\n\u200eChem. Sci. 11, 7972-7978 (2020)<\/p>\n

[\/et_pb_tab][et_pb_tab title=”Proyectos” _builder_version=”3.0.48″ body_font=”||||” body_line_height=”2em” tab_font=”||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n

Hacia la S\u00edntesis de Mol\u00e9culas Avanzadas para la Generaci\u00f3n de Energ\u00eda. CTQ2017-87102-R. Agencia de financiaci\u00f3n: Ministerio de Econom\u00eda, Industria y Competitividad. Duraci\u00f3n: 01-01-2018 – 30-09-2021.
\nPI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Hacia la S\u00edntesis de Mol\u00e9culas Avanzadas para la Generaci\u00f3n de Energ\u00eda. CTQ2017-87102-R. Agencia de financiaci\u00f3n: Ministerio de Ciencia e Innovaci\u00f3n. Duraci\u00f3n: 01-01-2018 – 30-09-2021.
\nPI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Mol\u00e9culas y Pol\u00edmeros Conjugados Innovadores para la preparaci\u00f3n de C\u00e9lulas Solares Org\u00e1nicas e H\u00edbridas y para aplicaci\u00f3n en Optoelectr\u00f3nica. CTQ2014-55798-R. Agencia de financiaci\u00f3n: Ministerio de Econom\u00eda, Industria y Competitividad. Duraci\u00f3n: 01-10-2015 – 30-09-2018.
\nPI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

S\u00edntesis, Caracterizaci\u00f3n y Autoorganizaci\u00f3n de Sistemas Electroactivos para la Construcci\u00f3n de C\u00e9lulas Solares Org\u00e1nicas. CTQ2011-26455\/BQU. Agencia de financiaci\u00f3n: Ministerio de Econom\u00eda, Industria y Competitividad. Duraci\u00f3n: 31-12-2011 – 31-12-2014.
\nPI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Dise\u00f1o y S\u00edntesis de Sistemas Moleculares y Supramoleculares Electroactivos para aplicaciones Optoelectr\u00f3nicas basadas en Transferencia Electr\u00f3nica Fotoinducida. CTQ2008-05901\/BQU. Agencia de financiaci\u00f3n: Ministerio de Econom\u00eda, Industria y Competitividad. Duraci\u00f3n: 31-12-2008 – 31-12-2011.
\nPI: \u00c1ngela Sastre Santos<\/em><\/p>\n

[\/et_pb_tab][\/et_pb_tabs][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=”1″ fullwidth=”on” disabled_on=”off|off|off” admin_label=”Secci\u00f3n” _builder_version=”3.22″][et_pb_fullwidth_header title=”Molecular Design” text_orientation=”center” content_max_width=”none” admin_label=”T\u00edtulo de anchura completa” _builder_version=”3.16″ background_color=”#649922″ button_one_letter_spacing_hover=”0″ button_two_letter_spacing_hover=”0″ button_one_text_size__hover_enabled=”off” button_two_text_size__hover_enabled=”off” button_one_text_color__hover_enabled=”off” button_two_text_color__hover_enabled=”off” button_one_border_width__hover_enabled=”off” button_two_border_width__hover_enabled=”off” button_one_border_color__hover_enabled=”off” button_two_border_color__hover_enabled=”off” button_one_border_radius__hover_enabled=”off” button_two_border_radius__hover_enabled=”off” button_one_letter_spacing__hover_enabled=”on” button_one_letter_spacing__hover=”0″ button_two_letter_spacing__hover_enabled=”on” button_two_letter_spacing__hover=”0″ button_one_bg_color__hover_enabled=”off” button_two_bg_color__hover_enabled=”off”][\/et_pb_fullwidth_header][\/et_pb_section][et_pb_section fb_built=”1″ disabled_on=”off|off|off” admin_label=”section” _builder_version=”3.22″][et_pb_row padding_mobile=”off” column_padding_mobile=”on” admin_label=”row” _builder_version=”3.25″ background_size=”initial” background_position=”top_left” background_repeat=”repeat” max_width=”980px” make_fullwidth=”off” use_custom_width=”on” width_unit=”on” custom_width_px=”980px”][et_pb_column type=”4_4″ _builder_version=”3.25″ custom_padding=”|||” custom_padding__hover=”|||”][et_pb_tabs admin_label=”Pesta\u00f1as” _builder_version=”4.2.2″ tab_font=”Roboto||||” tab_line_height=”1.4em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” use_border_color=”off” border_color=”#ffffff” border_style=”solid”][et_pb_tab title=”Information” _builder_version=”4.2.2″ body_font=”||||” body_line_height=”2em” tab_font=”||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n\n\n\n\n
Responsible<\/strong><\/td>\n\u00c1ngela Sastre\u00a0Santos<\/td>\n<\/tr>\n
Website<\/strong><\/td>\nhttp:\/\/quimicaorganica.umh.es<\/a><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

 <\/p>\n

RESEARCH SUMMARY<\/strong><\/h4>\n

Our principal objective is the synthesis and supramolecular organization of electroactive systems based on phthalocyanines (Pcs) and dicetopyrrolopyrroles (DPPs) as artificial Photosynthetic Systems, for molecular Photovoltaic and Anticancer Treatment. Pcs are porphyrin analogues with, generally, planar structure and high conjugation of the central ring (18 \u03c0-electrons). They present interesting properties for application in photovoltaic cells, especially strong absorbance in the visible and near infrared radiation region and high thermal and chemical stabilities. On the other hand, DPPs possess exceptional absorbance properties in the 500-600 nm region, strong fluorescent performance besides a great stability. A common feature of DPP-based materials is their relatively high oxidation potential, leading to high-energy charge-separated states when combined with acceptor systems and correspondingly high voltages are obtained in solar cells. For these reasons DPPs, either as polymers or as single molecules, are being investigated as active layer on different OPV devices.<\/p>\n

\"dis<\/p>\n

Phthalocyanine as Bioinspired Model for Chlorophyll f.<\/em><\/p>\n

 <\/p>\n

RESEARCH LINES<\/strong><\/h4>\n

 <\/p>\n

Line 1: Preparation of Multichromophoric Donor-Acceptor Ensembles as Light Harvesting Systems for Photosynthetic Energy Conversion<\/strong><\/h4>\n

Our objective is the preparation of donor-(acceptor)n [D-(A)n] or aceptor-(donor)n [A-(D)n] systems composed of phthalocyanines and with different kind of electroactive system such as DPP, pyrene, PDI, C60, BODIPY, carbon nanotubes, graphene and MoS2 and to check their ability in axial and peripheral configurations to get long life charge separated states for photosynthetic energy conversion. We will check different estrategies to conect Pcs to doped N-graphene and other semiconductor 2D materials as MoS2. We will choose substituents in the phthalocyanine that could give at the macrocycle either a donor or and acceptor character.<\/p>\n

Line 2: Preparation of Phthalocyanines and Diketopirrolepyrroles Systems for MOFs and SURMOFs organization<\/strong><\/h4>\n

Pcs and DPPs exhibit a great potential as novel linkers for MOFs. They present different properties that made them a target for the generation of new innovative MOFs. Pcs and DPPs are easily functionalized, they are symmetric allowing the generation of crystalline structures, they have a lot of delocalized \u03c0 electrons, they are optically active, and they can also generate oxidative species upon excitation. However, till now, Pcs and DPPs have been scarcelly incorporated in MOFs and SURMOFs structures.<\/p>\n

\"dis<\/p>\n

Zn-Si-Pc SURMOF grown on SAM-modified Ag and its absorption spectrum (blue arrow corresponds to Si-Pc solvated linker absorption maximum).<\/span><\/strong><\/em><\/p>\n

 <\/p>\n

Line 3: Synthesis of organic materials for photovoltaics<\/strong><\/h4>\n

Our group is actively working in the incorporation of Pcs and DPPs as photoactive components in different solar cell devices: p-n organic solar cells, as non-fullerene acceptors in bulk heterojunction solar cells, as photosensitisers in dye-sensitised solar cells, in perovskite solar cells, and also as interlayers acting as either electron- or hole-transporting materials. As a previous step, we investigate the photophysical properties of Pcs and DPPs regarding to photoinduced energy and\/or electron transfer.<\/p>\n

\"dis<\/p>\n

 <\/p>\n

Line 4: Synthesis of Phthalocyanines as Metallodrugs<\/strong><\/h4>\n

This line includes the synthesis of cyclometalated gold and platinum complexes conjugated with metallophthalocyanines that will be used as anticarcinogenic drugs. Texaphyrin-phthalocyanine and phthalocyanine analogs will also be prepared that can serve as intercalating agents for DNA quadruplexes. Once the derivatives have been synthesized, the pharmacological studies will be carried out in the research groups of collaborators who are within the network of excellence in which we are involved called \u201cMultifunctional Metalpharmaceuticals for Diagnosis and Therapy (RED2018\u2010102471\u2010T)”.<\/span><\/strong><\/p>\n

\"dis<\/p>\n

Phthalocyanines as photosensitizers for photodynamic therapy.<\/span><\/strong><\/em><\/p>\n

[\/et_pb_tab][et_pb_tab title=”Members” _builder_version=”4.2.2″ body_font=”Roboto||||” body_line_height=”2em” tab_font=”Roboto||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n\n\n\n\n\n\n\n\n\n\n\n\n
Name<\/strong><\/td>\nPosition<\/strong><\/td>\ne-mail<\/strong><\/td>\nORCID<\/strong><\/td>\n<\/tr>\n
Dr. \u00c1ngela Sastre Santos<\/td>\nFull Professor<\/td>\nasastre@umh.es<\/a><\/td>\n0000-0002-8835-2486<\/td>\n<\/tr>\n
Dr. Luis Mart\u00edn Gomis<\/td>\nAssociate Professor<\/td>\nluis.martin@umh.es<\/a><\/td>\n0000-0003-3268-9335<\/td>\n<\/tr>\n
Dr. Javier Ortiz Carricondo<\/td>\nAssociate Professor<\/td>\njortiz@umh.es<\/a><\/td>\n0000-0003-3480-6793<\/td>\n<\/tr>\n
Dr. Desir\u00e9 Molina Alcaide<\/td>\nPhD. Assistant Lecturer<\/td>\nd.molina@umh.es<\/a><\/td>\n0000-0002-1532-2032<\/td>\n<\/tr>\n
Dr. Jorge Follana Bern\u00e1<\/td>\nAssistant Professor<\/td>\njfollana@umh.es<\/a><\/td>\n0000-0002-0142-0520<\/td>\n<\/tr>\n
Maria Joao Albuquerque Martins<\/td>\nPhD Student<\/td>\nmalvaro@umh.es<\/a><\/td>\n0000-0002-1316-3082<\/td>\n<\/tr>\n
Adrian Hern\u00e1ndez Garc\u00eda<\/td>\nPhD Student<\/td>\nadrian.hernandezg@umh.es<\/a><\/td>\n0000-0002-3599-8216<\/td>\n<\/tr>\n
Julio C\u00e9sar Alvarez<\/td>\nPhD. Assistant Lecturer<\/td>\npucela@umh.es<\/a><\/td>\n0000-0003-4826-0875<\/td>\n<\/tr>\n
Concepcion Parejo<\/td>\nPhD. Assistant Lecturer<\/td>\nc.parejo@umh.es<\/a><\/td>\n0000-0001-8323-4125<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

[\/et_pb_tab][et_pb_tab title=”Publications” _builder_version=”4.2.2″ body_font=”Roboto||||” body_line_height=”2em” tab_font=”Roboto||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n

M. J. \u00c1lvaro-Martins, J. G. S\u00e1nchez, G. Lavarda,.D. Molina,. J. Pallar\u00e8s, T. Torres, L. F. Marsal, \u00c1. Sastre-Santos
Subphthalocyanine-Diketopyrrolopyrrole Conjugates: 3D Star-Shaped Systems as Non-Fullerene Acceptors in Polymer Solar Cells with High Open Circuit Voltage<\/strong><\/a>
Chem Plus Chem. (2021)<\/p>\n

A. A. A. Torimtubun, J. Follana-Bern\u00e1, J. G. S\u00e1nchez, J. Pallar\u00e8s, \u00c1. Sastre-Santos, and L. F. Marsal
Fluorinated Zinc and Copper Phthalocyanines as Efficient Third Component in Ternary Bulk Heterojunction Solar Cells<\/strong><\/a>
ACS Applied Energy Materials. (2021)<\/p>\n

J. Follana-Bern\u00e1, R. Farran, W.Leibl, A. Quaranta, \u00c1. Sastre-Santos and Ally Aukauloo
Phthalocyanine as Bioinspired Model for Chlorophyll f Containing Photosystem II Pushing Photosynthesis in the Far-Red<\/strong><\/a>
\u200eAngew. Chem. Int. Ed. (2021)<\/p>\n

I. K. Sideri, Y. Jang, J. Garc\u00e9s-Garc\u00e9s, \u00c1. Sastre-Santos, R. Canton-Vitoria, R. Kitaura, F. Fern\u00e1ndez-L\u00e1zaro, F. D\u2019Souza and N. Tagmatarchis
Unveiling the photoinduced electron-donating character of MoS2 in covalently linked hybrids featuring perylenediimide<\/strong><\/a>
\u200eAngew. Chem. Int. Ed. (2021)<\/p>\n

I. Papadopoulos, M. J. \u00c1lvaro-Martins, D. Molina, P. M. McCosker, P. A. Keller, T.Clark, \u00c1. Sastre-Santos and D. M. Guldi
Solvent-Dependent Singlet Fission in Diketopyrrolopyrrole Dimers: A Mediating Charge Transfer versus a Trapping Symmetry-Breaking Charge Separation<\/strong><\/a>
\u200eAdv. Energy. Mater. 10, 2001496 (2020)<\/p>\n

P. Huang, A. Hern\u00e1ndez, S. Kazim, J. Ortiz, \u00c1. Sastre-Santos, S. Ahmad
Molecularly engineered thienyl-triphenylamine substituted zinc phthalocyanine as dopant free hole transporting materials in perovskite solar cells<\/strong><\/a>
\u200eSustainable Energy & Fuels. 4, 6188-6195 (2020)<\/p>\n

L. Mart\u00edn-Gomis, S. Seetharaman, D. Herrero, P. A. Karr, F. Fern\u00e1ndez-L\u00e1zaro, F. D\u2019Souza, and \u00c1. Sastre-Santos
Distance Dependent Electron Transfer Kinetics in Axially Connected Silicon Phthalocyanine-Fullerene Conjugates<\/strong><\/a>
Chem. Phys. Chem., 21, 2254-2262 (2020)<\/p>\n

I. Papadopoulos, D. Guti\u00e9rrez-Moreno, P. M. McCosker, R. Casillas, P. A. Keller, \u00c1. Sastre-Santos, T. Clark, F. Fern\u00e1ndez-L\u00e1zaro and D. M. Guldi.
Perylene-Monoimides: Singlet Fission Down-Conversion Competes with Up-Conversion by Geminate Triplet-Triplet Recombination<\/strong><\/a>
J. Phys. Chem. A 124, 5727\u20135736 (2020)<\/p>\n

E. J. Canto-Aguilar, D. Guti\u00e9rrez-Moreno, \u00c1. Sastre-Santos, D. Morikawa, M. Abe, F. Fern\u00e1ndez-L\u00e1zaro, G. Oskam and S. Mori
Identification of the loss mechanisms in TiO2 and ZnO solar cells based on blue, piperidinyl-substituted, mono-anhydride perylene dyes<\/strong><\/a>
Electrochimica Acta 355; 136638 (2020)<\/p>\n

R. Haldar, Z. Fu, R. Joseph, D. Herrero, L. Mart\u00edn-Gomis, B. S Richards, I. A. Howard, \u00c1. Sastre-Santos and C. W\u00f6ll
Guest-Responsive Polaritons in Porous Framework: Chromophoric Sponges in Optical QED Cavities<\/strong><\/a>
\u200eChem. Sci. 11, 7972-7978 (2020)<\/p>\n

[\/et_pb_tab][et_pb_tab title=”Projects” _builder_version=”3.0.48″ body_font=”||||” body_line_height=”2em” tab_font=”||||” tab_line_height=”2em” background_size=”initial” background_position=”top_left” background_repeat=”repeat” body_line_height_tablet=”2em” body_line_height_phone=”2em” tab_line_height_tablet=”2em” tab_line_height_phone=”2em”]<\/p>\n

Hacia la S\u00edntesis de Mol\u00e9culas Avanzadas para la Generaci\u00f3n de Energ\u00eda. CTQ2017-87102-R. Funding agency: Ministerio de Econom\u00eda, Industria y Competitividad. Duration: 01-01-2018 – 30-09-2021.<\/p>\n

PI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Hacia la S\u00edntesis de Mol\u00e9culas Avanzadas para la Generaci\u00f3n de Energ\u00eda. CTQ2017-87102-R. Funding agency: Ministerio de Ciencia e Innovaci\u00f3n. Duration: 01-01-2018 – 30-09-2021.<\/p>\n

PI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Mol\u00e9culas y Pol\u00edmeros Conjugados Innovadores para la preparaci\u00f3n de C\u00e9lulas Solares Org\u00e1nicas e H\u00edbridas y para aplicaci\u00f3n en Optoelectr\u00f3nica. CTQ2014-55798-R. Funding agency: Ministerio de Econom\u00eda, Industria y Competitividad. Duration: 01-10-2015 – 30-09-2018.<\/p>\n

PI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

S\u00edntesis, Caracterizaci\u00f3n y Autoorganizaci\u00f3n de Sistemas Electroactivos para la Construcci\u00f3n de C\u00e9lulas Solares Org\u00e1nicas. CTQ2011-26455\/BQU. Funding agency: Ministerio de Econom\u00eda, Industria y Competitividad. Duration: 31-12-2011 – 31-12-2014.<\/p>\n

PI: \u00c1ngela Sastre Santos<\/em><\/p>\n

\n

Dise\u00f1o y S\u00edntesis de Sistemas Moleculares y Supramoleculares Electroactivos para aplicaciones Optoelectr\u00f3nicas basadas en Transferencia Electr\u00f3nica Fotoinducida. CTQ2008-05901\/BQU. Funding agency: Ministerio de Econom\u00eda, Industria y Competitividad. Duration: 31-12-2008 – 31-12-2011.<\/p>\n

PI: \u00c1ngela Sastre Santos<\/em><\/p>\n

[\/et_pb_tab][\/et_pb_tabs][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=”1″ disabled_on=”on|on|on” _builder_version=”4.2.2″ disabled=”on”][et_pb_row _builder_version=”4.2.2″][et_pb_column type=”4_4″ _builder_version=”4.2.2″][:es _i=”0″ _address=”4.0.0.0″ \/][:en _i=”1″ _address=”4.0.0.1″ \/][: _i=”2″ _address=”4.0.0.2″ \/][\/et_pb_column][\/et_pb_row][\/et_pb_section]<\/p>\n","protected":false},"excerpt":{"rendered":"

Responsable \u00c1ngela Sastre\u00a0Santos Web propia http:\/\/quimicaorganica.umh.es   RESUMEN DE LA INVESTIGACI\u00d3N Nuestro principal objetivo es la s\u00edntesis y organizaci\u00f3n supramolecular de sistemas electroactivos basados en ftalocianinas (Pcs) y dicetopirrolos (DPPs) como sistemas fotosint\u00e9ticos artificiales, para el tratamiento molecular fotovoltaico y anticanceroso. Las Pcs son an\u00e1logos de las porfirinas con, generalmente, estructura planar y alta conjugaci\u00f3n […]<\/p>\n","protected":false},"author":17017,"featured_media":0,"parent":4261,"menu_order":72,"comment_status":"open","ping_status":"closed","template":"","meta":{"_et_pb_use_builder":"on","_et_pb_old_content":"","_et_gb_content_width":"","_links_to":"","_links_to_target":""},"_links":{"self":[{"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/pages\/4540"}],"collection":[{"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/users\/17017"}],"replies":[{"embeddable":true,"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/comments?post=4540"}],"version-history":[{"count":0,"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/pages\/4540\/revisions"}],"up":[{"embeddable":true,"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/pages\/4261"}],"wp:attachment":[{"href":"https:\/\/bioingenieria.umh.es\/en\/wp-json\/wp\/v2\/media?parent=4540"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}