Control of surface interactions with ultra-violet/ozone modification at polystyrene surface

Liang, He

January 2014

Surface interactions and reactivity are of critical importance in current biomedical technologies, for example, satisfactory cell attachment and long term viability are essential for optimal in vitro tissue culture and for successful implantation and stability of cardiovascular medical implants such as stents and grafts. To achieve this, the control of fundamental forces and the resulting molecular interactions between the relevant surface and absorbing or adhering species in the physiological system is compulsory. This work utilised the surface modification technique of Ultra-Violet/ Ozone to improve the polystyrene biocompatibility by oxidising the surface with additional polar oxygen functional groups without damaging the surface bulk property. UV/Ozone treatment utilised throughout this study produced controllable oxygen functional groups and led to an increase in surface atomic oxygen level to 41% on unwashed and 35% on washed polystyrene surfaces, washing resulted in the removal of low molecular weight oxidised materials. Surface energy was increased by the addition of oxygen functional groups with the combination of alcohol (C-OR), carbonyl (C=O) and carboxyl (O-C=O); Saturation state was reached after 300s of UV/Ozone treatment where no more oxygen functionalities were incorporated to the surface. Moreover, UV/ozone treatment did not show an effect on the surface roughness studied by atomic force microscopy. The biological responses of human endothelial umbilical vein cells (HUVECs) were studied at the different level of UV/Ozone treated surfaces. HUVEC adhesion, proliferation and migration were significantly improved by the treatment compared to untreated and tissue cultures plastics (TCPs). Among the levels of UV/ozone treatment studied, 120s and 180s were found to be the most effective and HUVEC proliferation did not seem to be affected by the high level of oxygen. Similarly, the surface oxygen level did not affect the migration over UV/Ozone treated over 60s. Hypoxic condition significantly increased HUVECs migration on UV/Ozone treated, TCPs and untreated surfaces compared to normoxia, the oxygen rich surface did not favour to HUVECs that underwent regulatory process to enable the cells to increase migration. Under laminar flow conditions, HUVECs did not only grow, proliferate and migrate but also showed standard responses on UV/Ozone treated polystyrene surface. A decrease in cell size was observed at all shear stress intensities studied (1 dyn/cm2, 9 dyn/cm2 and 25 dyn/cm2) and the decrease was more obvious at higher shear stress. High shear stress intensity also induced high cell turnovers, which may be related to air bubbles induced at high flow rate. The overall findings of this study clearly illustrate that UV/Ozone surface treatment can be applied on polystyrene to improve human endothelial cells functionalities in term of adhesion, proliferation and migration in both static and laminar flow environment.

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Estudos de tratamentos superficiais em substratos de óxidos transparentes condutivos para a fabricação de dispositivos poliméricos eletroluminescentes. / Superficial treatments studies on substrates of transparent conductive oxides for construction of electroluminescent polymeric devices.

Santos, Emerson Roberto

09 February 2009

Neste trabalho foram realizados e estudados tratamentos superficiais sobre óxidos transparentes condutivos (TCOs) depositados sobre vidro, cuja aplicação ou finalidade é a montagem de dispositivos poliméricos eletroluminescentes. A principal intenção da utilização destes processos é diminuir a tensão de limiar e também aumentar a luminância desses dispositivos, sem interferir na transmitância original dos filmes. Três diferentes técnicas de tratamentos superficiais foram utilizadas: (a) Plasma de oxigênio; (b) Água-régia e (c) UV-Ozônio. Neste último processo, um reator foi montado utilizando uma lâmpada de vapor de mercúrio a alta pressão (tipo alta intensidade de descarga), sem o bulbo externo para fornecer a disponibilidade de radiação UV para a obtenção de ozônio a partir do ar atmosférico. Este reator com baixo custo e fácil manuseio foi montado para realizar um processo alternativo comparado aos dois processos anteriormente citados (Plasma de oxigênio e Água-Régia) e constitui o principal foco, comparando a partir de resultados experimentais obtidos por dispositivos montados, utilizando diferentes TCOs. Foi possível confirmar que o procedimento a partir do UV-Ozônio é reprodutível, pois pode substituir com vantagens as outras duas técnicas que apresentam custo mais elevado ou que exige manuseio especial. Pela utilização de diferentes períodos de tratamento como a única variável, nas condições estabelecidas durante os experimentos, foi mantida uma amostra sem tratamento para comparação em cada resultado obtido. Em comparação aos outros tratamentos, a técnica de UV-ozônio apresentou reprodutibilidade. Neste caso, verificamos que houve eliminação de contaminantes indesejáveis como carbono e hidrocarbonetos detectadas pela técnica de DRIFT (Diffuse Reflectance Infra-Red Fourier Transformed) e melhor espalhamento de polímero (PEDOT:PSS) sobre a superfície através da técnica de ângulo de contato foi observado. Para os filmes de ITO e FTO o período ótimo foi observado durante 5 minutos e para o ZnO, durante 15 minutos. Os resultados das medições de resistência de folha, espessura e efeito Hall, não revelaram significantes modificações. Revelando que as superfícies foram influenciadas apenas atomicamente ou molecularmente. / In this work superficial treatment on transparent conductive oxides (TCOs) were carried out and studied by application or finality for the assembly of electroluminescent polymeric devices. The mean intention by use of these processes is to decrease the threshold voltage and also increase the luminance of the devices, without interfering in the original TCOs transmittances. Three different treatment techniques were used: (a) oxygen plasma; (b) aqua regia and (c) UV-ozozne. In the he last one, a reactor was assembled using a high-pressure mercury vapor lamp (high intensity discharge lamp type) without outer bulb to provide the available UV radiation to obtain ozone from atmospheric air. This reactor with low cost and easy handle was mounted to accomplish an alternative process compared by other (oxygen plasma and aqua regia) and it has the main focus of this work compared from experimental results obtained by mounted devices using different TCOs. It was possible to confirm that the procedure from the UV-Ozone is reproducible, because it can replaced with advantages the other techniques that have expansive costs or special handling. The use of different treatment times as only variable on the imposed condition in the experiments, a sample was reserved without treatment for comparison during each obtained result. In comparison with other treatments the UV-Ozônio presented reproducibility. In this case was verified the undesirable contaminants eliminated as carbon and hydrocarbon and detected by DRIFT (Diffuse Reflectance Infra-Red Fourier Transformed) technique and better scattering of polymer (PEDOT:PSS) on surface by contact angle was observed. For ITO and FTO films the optimum period was observed during 5 minutes and ZnO during 15 minutes. The measurements results of sheet resistance, thickness and Hall effect revealed no significant changes confirming that the surfaces were influenced only atomically or molecularly only.

Aquaregia

Dispositivos eletrônicos

Electroluminescent polymeric devices

High-pressure mercury vapor lamp

Microeletrônica

Óxidos condutivos transparentes

Oxygen plasma

Superficial treatment

Transparent conductive oxide

UV-ozone

Estudos de tratamentos superficiais em substratos de óxidos transparentes condutivos para a fabricação de dispositivos poliméricos eletroluminescentes. / Superficial treatments studies on substrates of transparent conductive oxides for construction of electroluminescent polymeric devices.

Emerson Roberto Santos

09 February 2009

Neste trabalho foram realizados e estudados tratamentos superficiais sobre óxidos transparentes condutivos (TCOs) depositados sobre vidro, cuja aplicação ou finalidade é a montagem de dispositivos poliméricos eletroluminescentes. A principal intenção da utilização destes processos é diminuir a tensão de limiar e também aumentar a luminância desses dispositivos, sem interferir na transmitância original dos filmes. Três diferentes técnicas de tratamentos superficiais foram utilizadas: (a) Plasma de oxigênio; (b) Água-régia e (c) UV-Ozônio. Neste último processo, um reator foi montado utilizando uma lâmpada de vapor de mercúrio a alta pressão (tipo alta intensidade de descarga), sem o bulbo externo para fornecer a disponibilidade de radiação UV para a obtenção de ozônio a partir do ar atmosférico. Este reator com baixo custo e fácil manuseio foi montado para realizar um processo alternativo comparado aos dois processos anteriormente citados (Plasma de oxigênio e Água-Régia) e constitui o principal foco, comparando a partir de resultados experimentais obtidos por dispositivos montados, utilizando diferentes TCOs. Foi possível confirmar que o procedimento a partir do UV-Ozônio é reprodutível, pois pode substituir com vantagens as outras duas técnicas que apresentam custo mais elevado ou que exige manuseio especial. Pela utilização de diferentes períodos de tratamento como a única variável, nas condições estabelecidas durante os experimentos, foi mantida uma amostra sem tratamento para comparação em cada resultado obtido. Em comparação aos outros tratamentos, a técnica de UV-ozônio apresentou reprodutibilidade. Neste caso, verificamos que houve eliminação de contaminantes indesejáveis como carbono e hidrocarbonetos detectadas pela técnica de DRIFT (Diffuse Reflectance Infra-Red Fourier Transformed) e melhor espalhamento de polímero (PEDOT:PSS) sobre a superfície através da técnica de ângulo de contato foi observado. Para os filmes de ITO e FTO o período ótimo foi observado durante 5 minutos e para o ZnO, durante 15 minutos. Os resultados das medições de resistência de folha, espessura e efeito Hall, não revelaram significantes modificações. Revelando que as superfícies foram influenciadas apenas atomicamente ou molecularmente. / In this work superficial treatment on transparent conductive oxides (TCOs) were carried out and studied by application or finality for the assembly of electroluminescent polymeric devices. The mean intention by use of these processes is to decrease the threshold voltage and also increase the luminance of the devices, without interfering in the original TCOs transmittances. Three different treatment techniques were used: (a) oxygen plasma; (b) aqua regia and (c) UV-ozozne. In the he last one, a reactor was assembled using a high-pressure mercury vapor lamp (high intensity discharge lamp type) without outer bulb to provide the available UV radiation to obtain ozone from atmospheric air. This reactor with low cost and easy handle was mounted to accomplish an alternative process compared by other (oxygen plasma and aqua regia) and it has the main focus of this work compared from experimental results obtained by mounted devices using different TCOs. It was possible to confirm that the procedure from the UV-Ozone is reproducible, because it can replaced with advantages the other techniques that have expansive costs or special handling. The use of different treatment times as only variable on the imposed condition in the experiments, a sample was reserved without treatment for comparison during each obtained result. In comparison with other treatments the UV-Ozônio presented reproducibility. In this case was verified the undesirable contaminants eliminated as carbon and hydrocarbon and detected by DRIFT (Diffuse Reflectance Infra-Red Fourier Transformed) technique and better scattering of polymer (PEDOT:PSS) on surface by contact angle was observed. For ITO and FTO films the optimum period was observed during 5 minutes and ZnO during 15 minutes. The measurements results of sheet resistance, thickness and Hall effect revealed no significant changes confirming that the surfaces were influenced only atomically or molecularly only.

Dispositivos eletrônicos

Microeletrônica

Óxidos condutivos transparentes

Aquaregia

Electroluminescent polymeric devices

High-pressure mercury vapor lamp

Oxygen plasma

Superficial treatment

Transparent conductive oxide

UV-ozone

Organic Photovoltaic Optimization: A Functionalized Device Based Approach

Theibert, Dustin

January 2013

No description available.

Chemistry

Nanotechnology

Organic Chemistry

Polymers

Sustainability

organic photovoltaics

PEDOTPSS

PEDOT

PSS

thermal annealing

UV ozone treatment

CuPc

C60

CuPcC60

CuPc-C60

anode buffer layer

ABL

cathode buffer layer

CBL

OPV

organic electronic