Efeitos de solventes nos espectros de absorção e emissão da Dimethoxy Curcumin / Solvent Effects on Absorption and Emission Spectra of Dimethoxy Curcumin

Ramos, Tárcius Nascimento

07 April 2015

A Curcumin há muito tempo é utilizada como condimento, colorífico e na medicina tradicional asiática. Conhecida como açafrão-da-índia, recentemente tem chamado a atenção devido ao grande potencial medicinal. Surgiram trabalhos principalmente sobre seus supostos efeitos benignos no tratamento de câncer e Alzheimer porém não limitados a estas enfermidades. Na tentativa de otimizar as propriedades medicinais surgiu a Dimethoxy Curcumin, um composto sintético que apresenta maior citotoxicidade e estabilidade biológica que a Curcumin. A maioria das reações químicas e biológicas ocorrem em soluções e os efeitos dos solventes são de extrema importância e complexidade. Neste trabalho nós estudamos os efeitos dos solventes ciclohexano e acetonitrila nos espectros de absorção e emissão da Dimethoxy Curcumin. Consideramos a contribuição de diferentes isômeros e estados excitados usando a Teoria do Funcional Densidade Dependente do Tempo (TD-DFT) utilizando a aproximação Modelo Contínuo Polarizável para o solvente. Nós observamos que as energias de emissão dos estados singletos sofrem um deslocamento para o vermelho enquanto que os estados tripletos sofrem um deslocamento para o azul. Respondemos estas questões analisando a variação do momento de dipolo durante a transição. Neste trabalho encontramos boa concordância com os valores experimentais dos espectros de absorção, emissão, deslocamento espectral e deslocamento Stokes. / The Curcumin has long been used as a condiment, pigment and in the traditional Asian medicine. Known as turmeric, recently has attracted attention because of the large medical potential. Several studies were made mainly about the supposed benign effects in the treatment of cancer and Alzheimer but not limited to these diseases. Attempt to optimize their medicinal properties there appeared the Dimethoxy Curcumin, a synthetic compound that has a higher cytotoxicity and biological stability than Curcumin. Most of the chemical and biological reactions occur in solutions and the solvent effects are of great importance and complexity. In the present work, we study the effects of the solvents cyclohexane and acetonitrile in the absorption and emission spectra of Dimethoxy Curcumin. We consider the contribution of various isomers and excited states using the Time Dependent Density Functional Theory (TD-DFT) with the Polarizable Continuum Model (PCM) approximation for the solvent. We observe that the emission energy of the singlet states are red shifted while the triplet states are blue shifted. We address this by analyzing the dipole moment variation after the transition. We find good agreement with the experimental values for the absorption, emission, spectral shift and Stokes shift

deslocamento Stokes

Dimethoxy Curcumin

Dimethoxy Curcumin

efeitos de solventes

emission energy

energia de emissão

solvent effects

Stokes shift

TD-DFT.

TD-DFT.

Efeitos de solventes nos espectros de absorção e emissão da Dimethoxy Curcumin / Solvent Effects on Absorption and Emission Spectra of Dimethoxy Curcumin

Tárcius Nascimento Ramos

07 April 2015

A Curcumin há muito tempo é utilizada como condimento, colorífico e na medicina tradicional asiática. Conhecida como açafrão-da-índia, recentemente tem chamado a atenção devido ao grande potencial medicinal. Surgiram trabalhos principalmente sobre seus supostos efeitos benignos no tratamento de câncer e Alzheimer porém não limitados a estas enfermidades. Na tentativa de otimizar as propriedades medicinais surgiu a Dimethoxy Curcumin, um composto sintético que apresenta maior citotoxicidade e estabilidade biológica que a Curcumin. A maioria das reações químicas e biológicas ocorrem em soluções e os efeitos dos solventes são de extrema importância e complexidade. Neste trabalho nós estudamos os efeitos dos solventes ciclohexano e acetonitrila nos espectros de absorção e emissão da Dimethoxy Curcumin. Consideramos a contribuição de diferentes isômeros e estados excitados usando a Teoria do Funcional Densidade Dependente do Tempo (TD-DFT) utilizando a aproximação Modelo Contínuo Polarizável para o solvente. Nós observamos que as energias de emissão dos estados singletos sofrem um deslocamento para o vermelho enquanto que os estados tripletos sofrem um deslocamento para o azul. Respondemos estas questões analisando a variação do momento de dipolo durante a transição. Neste trabalho encontramos boa concordância com os valores experimentais dos espectros de absorção, emissão, deslocamento espectral e deslocamento Stokes. / The Curcumin has long been used as a condiment, pigment and in the traditional Asian medicine. Known as turmeric, recently has attracted attention because of the large medical potential. Several studies were made mainly about the supposed benign effects in the treatment of cancer and Alzheimer but not limited to these diseases. Attempt to optimize their medicinal properties there appeared the Dimethoxy Curcumin, a synthetic compound that has a higher cytotoxicity and biological stability than Curcumin. Most of the chemical and biological reactions occur in solutions and the solvent effects are of great importance and complexity. In the present work, we study the effects of the solvents cyclohexane and acetonitrile in the absorption and emission spectra of Dimethoxy Curcumin. We consider the contribution of various isomers and excited states using the Time Dependent Density Functional Theory (TD-DFT) with the Polarizable Continuum Model (PCM) approximation for the solvent. We observe that the emission energy of the singlet states are red shifted while the triplet states are blue shifted. We address this by analyzing the dipole moment variation after the transition. We find good agreement with the experimental values for the absorption, emission, spectral shift and Stokes shift

deslocamento Stokes

Dimethoxy Curcumin

efeitos de solventes

energia de emissão

TD-DFT.

Dimethoxy Curcumin

emission energy

solvent effects

Stokes shift

TD-DFT.

The Electron Emission Characteristics of Aluminum, Molybdenum and Carbon Nanotubes Studied by Field Emission and Photoemission.

Sosa, Edward Delarosa

12 1900

The electron emission characteristics of aluminum, molybdenum and carbon nanotubes were studied. The experiments were setup to study the emission behavior as a function of temperature and exposure to oxygen. Changes in the surface work function as a result of thermal annealing were monitored with low energy ultra-violet photoelectron spectroscopy for flat samples while field emission energy distributions were used on tip samples. The change in the field emission from fabricated single tips exposed to oxygen while in operation was measured using simultaneous Fowler-Nordheim plots and electron energy distributions. From the results a mechanism for the degradation in the emission was concluded. Thermal experiments on molybdenum and aluminum showed that these two materials can be reduced at elevated temperatures, while carbon nanotubes on the other hand show effects of oxidation. To purely reduce molybdenum a temperature in excess of 750 ºC is required. This temperature exceeds that allowed by current display device technology. Aluminum on the other hand shows reduction at a much lower temperature of at least 125 ºC; however, its extreme reactivity towards oxygen containing species produces re-oxidation. It is believed that this reduction is due to the outward diffusion of aluminum atoms through the oxide. Carbon nanotubes on the other hand show signs of oxidation as they are heated above 700 ºC. In this case the elevated temperatures cause the opening of the end caps allowing the uptake of water. Oxygen exposure experiments indicate that degradation in field emission is two-fold and is ultimately dependent on the emission current at which the tip is operated. At low emission currents the degradation is exclusively due to oxidation. At high emission currents ion bombardment results in the degradation of the emitter. In between the two extremes, molybdenum tips are capable of stable emission.

Electrons -- Emission.

Field emission.

Photoemission.

Nanotubes.

Aluminum.

Molybdenum.

Carbon.

Field emission

photoemission

field emission energy distributions

work function

MULTIFUNCTIONAL METAL-FREE CARBON NANOMATERIALS FOR CLEAN ENERGY CONVERSION AND STORAGE APPLICATIONS

Chen, Xiaoyi

25 January 2022

No description available.

Chemistry

Energy

Nanotechnology

Carbon metal-free catalyst

solar cell

water splitting

fuel cell

Zn-air battery

supercapacitor

zero emission energy system