Nazario Martín scite author profile

This tutorial review surveys recent advances in the field of C60/pi-conjugated oligomer donor-acceptor ensembles. In particular, different synthetic strategies are discussed that were developed to link pi-conjugated oligomers, as versatile photoexcited state electron donors, to C60. We highlight relationships between the nature/structural aspects of pi-conjugated donor systems and a variety of physico-chemical features. Modifications of the oligomeric components are discussed under aspects of tailoring (i) the absorption cross-section of the chromophore in the visible region, (ii) the oxidation potential of the oligomeric donor moiety, (iii) the size, shape, or chemical makeup of the oligomer, and (iv) the stabilization of the charge-separated radical ion pairs. In the final section, the applicability of selected materials for the fabrication of photovoltaic devices is analyzed.

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Hole transporting materials for perovskite solar cells: a chemical approach

Urieta‐Mora

et al. 2018

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Organic photovoltaics: a chemical approach

et al. 2010

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The design of new organic functional molecules able to harvest sun light and efficiently undergo photon to current energy conversion processes is at the forefront of chemical challenges. In this review, the fundamental contribution of chemistry to the multidisciplinary field of organic photovoltaics is presented in a systematic way through the wide variety of organic compounds synthesized to be successfully used in photovoltaic devices.

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Chemical functionalization and characterization of graphene-based materials

et al. 2017

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Graphene-based materials (GBMs), with graphene, their most known member, at the head, constitute a large family of materials which has aroused the interest of scientists working in different research fields such as chemistry, physics, or materials science, to mention a few, arguably as no other material before. In this review, we offer a general overview on the most relevant synthetic approaches for the covalent and non-covalent functionalization and characterization of GBMs. Moreover, some representative examples of the incorporation into GBMs of electroactive units such as porphyrins, phthalocyanines, or ferrocene, among others, affording electron donor-acceptor (D-A) hybrids are presented. For the latter systems, the photophysical characterization of their ground- and excited-state features has also been included, paying particular attention to elucidate the fundamental dynamics of the energy transfer and charge separation processes of these hybrids. For some of the presented architectures, their application in solar energy conversion schemes and energy production has been also discussed.

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Fullerene for organic electronics

et al. 2009

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This tutorial review surveys and highlights the integration of different molecular wires-in combination with chromophores that exhibit (i) significant absorption cross section throughout the visible part of the solar spectrum and (ii) good electron donating power-into novel electron donor-acceptor conjugates. The focus is predominantly on charge transfer and charge transport features of the most promising systems.

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Fullerene Polymers: Synthesis and Properties

2006

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Electronic Communication in Tetrathiafulvalene (TTF)/C₆₀ Systems: Toward Molecular Solar Energy Conversion Materials?

Martín¹,

Sánchez²,

Herranz³

et al. 2007

Acc. Chem. Res.

349

200

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The covalent connection of the electron acceptor C 60 to p-quinonoid pi-extended tetrathiafulvalenes (exTTFs) has allowed for the preparation of new photo- and electroactive conjugates able to act as artificial photosynthetic systems and active molecular materials in organic photovoltaics. The gain of aromaticity undergone by the pi-extended TTF unit in the oxidation process results in highly stabilized radical ion pairs, namely, C 60 (*-)/exTTF (*+). Lifetimes for such charge-separated states, ranging from a few nanoseconds to hundreds of microseconds, have been achieved by rationally modifying the nature of the chemical spacers. These long-lived radical pairs are called to play an important role for the conversion of sunlight into chemical or electrical power.

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Curves ahead: molecular receptors for fullerenes based on concave–convex complementarity

2008

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The unique chemical and physical properties of fullerenes are to a great extent determined by their unusual curved shape. One of the most active fields in fullerene chemistry is the search for molecular receptors able to form stable associates with them in solution, with the purification from fullerite and the self-assembly of nanoscale electronic devices as main driving forces. In this tutorial review we present a brief overview of the recent advances in the construction of molecular receptors that feature curved concave surfaces complementary to the convex surface of fullerenes as a key recognizing element.

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Nazario Martín

Materials for organic solar cells: the C₆₀/π-conjugated oligomer approach

Hole transporting materials for perovskite solar cells: a chemical approach

Organic photovoltaics: a chemical approach

Chemical functionalization and characterization of graphene-based materials

Fullerene for organic electronics

Fullerene Polymers: Synthesis and Properties

Electronic Communication in Tetrathiafulvalene (TTF)/C₆₀ Systems: Toward Molecular Solar Energy Conversion Materials?

Curves ahead: molecular receptors for fullerenes based on concave–convex complementarity

Contact Info

Product

Resources

About

Nazario Martín

Materials for organic solar cells: the C60/π-conjugated oligomer approach

Hole transporting materials for perovskite solar cells: a chemical approach

Organic photovoltaics: a chemical approach

Chemical functionalization and characterization of graphene-based materials

Fullerene for organic electronics

Fullerene Polymers: Synthesis and Properties

Electronic Communication in Tetrathiafulvalene (TTF)/C60 Systems: Toward Molecular Solar Energy Conversion Materials?

Curves ahead: molecular receptors for fullerenes based on concave–convex complementarity

Contact Info

Product

Resources

About

Materials for organic solar cells: the C₆₀/π-conjugated oligomer approach

Electronic Communication in Tetrathiafulvalene (TTF)/C₆₀ Systems: Toward Molecular Solar Energy Conversion Materials?