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Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research

Understanding Organic Photovoltaic Materials Using Simple Thermal Analysis Methodologies
Annu Rev Phys Chem. 2024 Feb 29. doi: 10.1146/annurev-physchem-070723-035427. Online ahead of print.ABSTRACTLarge strides have been made in designing an ever-increasing set of modern organic materials of high functionality and thus, often, of high complexity, including semiconducting polymers, organic ferroelectrics, light-emitting small molecules, and beyond. Here, we review how broadly applied thermal analysis methodologies, especially differential scanning calorimetry, can be utilized to provide unique information on the assembly and solid-state structure of this extensive class of materials, as well as the phase behavi...
Source: Annual Review of Physical Chemistry - February 29, 2024 Category: Chemistry Authors: Aditi Khirbat Oded Nahor Sara Marina Barbier Artem Levitsky Jaime Mart ín Gitti Frey Natalie Stingelin Source Type: research