Paper-like electronic displays: Large-area rubber-stamped plastic sheets of electronics and microencapsulated electrophoretic inks

Electronic systems that use rugged lightweight plastics potentially offer attractive characteristics (low-cost processing, mechanical flexibility, large area coverage, etc.) that are not easily achieved with established silicon technologies. This paper summarizes work that demonstrates many of these characteristics in a realistic system: organic active matrix backplane circuits (256 transistors) for large (≈5 × 5-inch) mechanically flexible sheets of electronic paper, an emerging type of display. The success of this effort relies on new or improved processing techniques and materials for plastic electronics, including methods for (i) rubber stamping (microcontact printing) high-resolution (≈1 μm) circuits with low levels of defects and good registration over large areas, (ii) achieving low leakage with thin dielectrics deposited onto surfaces with relief, (iii) constructing high-performance organic transistors with bottom contact geometries, (iv) encapsulating these transistors, (v) depositing, in a repeatable way, organic semiconductors with uniform electrical characteristics over large areas, and (vi) low-temperature (≈100°C) annealing to increase the on/off ratios of the transistors and to improve the uniformity of their characteristics. The sophistication and flexibility of the patterning procedures, high level of integration on plastic substrates, large area coverage, and good performance of the transistors are all important features of this work. We successfully integrate these circuits with microencapsulated electrophoretic “inks” to form sheets of electronic paper.

Segurança biológica de implantes mamários de silicone: interrelação entre processos esterilizantes e biocompatibilidade

Os implantes mamários de silicone têm sido empregados, tanto nas cirurgias de aumento das mamas, quanto na reconstrução do tecido mamário após mastectomia. A segurança biológica dos implantes de silicone merece estudo relacionado aos processos de esterilização empregados, pois podem constituir-se em fator de comprometimento da estrutura química do polímero e, conseqüentemente, da biocompatibilidade. Este estudo consistiu na avaliação da biocompatibilidade de implantes mamários de silicone após terem sido submetidos aos processos de esterilização por calor seco, radiação gama e óxido de etileno. O parâmetro avaliado foi a viabilidade celular, empregando o método de difusão em agar e de captura do vermelho neutro. As amostras compreenderam implantes de silicone gel lisos, texturizados e revestidos com poliuretano e implantes texturizados pré-cheios com solução salina. Também foi realizado o teste de endotoxinas bacterianas pelo método do LAL e determinação da taxa de migração do gel de silicone (teste de bleed). Os três métodos de esterilização mostraram-se igualmente eficientes pela comprovação da condição de esterilidade dos implantes através de metodologia descrita na Farmacopéia Americana 27 edição. Os níveis de endotoxinas bacterianas dos implantes, também atenderam aos requisitos dos compêndios oficiais. Na avaliação da biocompatibilidade todos os implantes, independente dos processos de esterilização utilizados, apresentaram ausência de citotoxicidade. Os resultados do teste de bleed mostraram uma maior taxa de migração de gel para os implantes de superfície lisa em comparação com os implantes de superfície texturizada e revestida com poliuretano, quando esterilizados por calor seco. Ao comparar a taxa de migração do gel para os implantes de superfície lisa esterilizados por calor seco e óxido de etileno, obteve-se uma maior taxa de migração para aqueles implantes esterilizados por óxido de etileno. As diferentes avaliações realizadas neste estudo abrangeram aspectos biológicos, químicos e físicos relevantes para garantir um produto de boa qualidade e que, por assegurar a manutenção da característica de biocompatibilidade, resulta na segurança biológica deste tipo de implante.

Field and laboratory performance evaluation of a field-blended rubber asphalt.

ALICE is one of four major experiments of particle accelerator LHC installed in the European laboratory CERN. The management committee of the LHC accelerator has just approved a program update for this experiment. Among the upgrades planned for the coming years of the ALICE experiment is to improve the resolution and tracking efficiency maintaining the excellent particles identification ability, and to increase the read-out event rate to 100 KHz. In order to achieve this, it is necessary to update the Time Projection Chamber detector (TPC) and Muon tracking (MCH) detector modifying the read-out electronics, which is not suitable for this migration. To overcome this limitation the design, fabrication and experimental test of new ASIC named SAMPA has been proposed . This ASIC will support both positive and negative polarities, with 32 channels per chip and continuous data readout with smaller power consumption than the previous versions. This work aims to design, fabrication and experimental test of a readout front-end in 130nm CMOS technology with configurable polarity (positive/negative), peaking time and sensitivity. The new SAMPA ASIC can be used in both chambers (TPC and MCH). The proposed front-end is composed of a Charge Sensitive Amplifier (CSA) and a Semi-Gaussian shaper. In order to obtain an ASIC integrating 32 channels per chip, the design of the proposed front-end requires small area and low power consumption, but at the same time requires low noise. In this sense, a new Noise and PSRR (Power Supply Rejection Ratio) improvement technique for the CSA design without power and area impact is proposed in this work. The analysis and equations of the proposed circuit are presented which were verified by electrical simulations and experimental test of a produced chip with 5 channels of the designed front-end. The measured equivalent noise charge was <550e for 30mV/fC of sensitivity at a input capacitance of 18.5pF. The total core area of the front-end was 2300?m × 150?m, and the measured total power consumption was 9.1mW per channel.

Comparative analysis of the visual performance and aberrometric outcomes with a new hybrid and two silicone hydrogel multifocal contact lenses: a pilot study

Background: The aim was to evaluate the visual performance achieved with a new multifocal hybrid contact lens and to compare it with that obtained with two other currently available multifocal soft contact lenses. Methods: This pilot prospective comparative study comprised a total of 16 presbyopic eyes of eight patients ranging in age from 43 to 58 years. All patients were fitted with three different models of multifocal contact lens: Duette multifocal (SynergEyes), Air Optix AQUA multifocal (Alcon) and Biofinity multifocal (CooperVision). Fittings were performed randomly in each patient according to a random number sequence, with a wash-out period between fittings of seven days. At two weeks post-fitting, visual, photopic contrast sensitivity and ocular aberrometry were evaluated. Results: No statistically significant differences were found in distance and near visual acuity achieved with the three different types of multifocal contact lens (p ≥ 0.05). Likewise, no significant differences between lenses were found in the monocular and binocular defocus curve (p ≥ 0.10). Concerning contrast sensitivity, better monocular contrast sensitivities for 6, 12 and 18 cycles per degree were found with the Duette and Air Optix multifocal compared to Biofinity (p = 0.02). Binocularly, differences between lenses were not significant (p ≥ 0.27). Furthermore, trefoil aberration was significantly higher with Biofinity multifocal (p < 0.01) and Air Optix (p = 0.01) multifocal compared to Duette. Conclusions: The Duette multifocal hybrid contact lens seems to provide similar visual quality outcomes in presbyopic patients with low corneal astigmatism, when compared with other soft multifocal contact lenses. This preliminary result should be confirmed in studies with larger samples.