Design and synthesis of a squaraine dye for long wavelength fluorescence-based biosensors

Voltage Enhancement in Quasi-Solid-State Dye-Sensitized Solar Cells Using Long Wavelength Absorbing Unsymmetrical Squaraine Dye

Science of Advanced Materials ◽

10.1166/sam.2016.3000 ◽

2016 ◽

Vol 8 (12) ◽

pp. 2183-2188

Author(s):

Suresh Thogiti ◽

Chi Hwan Lee ◽

Weon Ki Yang ◽

Hyeong Jin Yun ◽

Jae Hong Kim

Keyword(s):

Solar Cells ◽

Solid State ◽

Dye Sensitized Solar Cells ◽

Long Wavelength ◽

Dye Sensitized ◽

Squaraine Dye ◽

Sensitized Solar Cells

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Design and Synthesis of a Long-Wavelength Latent Fluorogenic Substrate for Salicylate Hydroxylase: A Useful Fluorimetric Indicator for Analyte Determination by Dehydrogenase-Coupled Biosensors

Analytical Chemistry ◽

10.1021/ac101281p ◽

2010 ◽

Vol 82 (17) ◽

pp. 7329-7334 ◽

Cited By ~ 6

Author(s):

Sheng-Tung Huang ◽

Chun-Jen Teng ◽

Yu-Hui Lee ◽

Jui-Yu Wu ◽

Kun-Li Wang ◽

...

Keyword(s):

Fluorogenic Substrate ◽

Long Wavelength ◽

Design And Synthesis

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Design and Synthesis of Long-Wavelength Fluorescent Boronic Acid Reporter Compounds

European Journal of Organic Chemistry ◽

10.1002/ejoc.200700008 ◽

2007 ◽

Vol 2007 (13) ◽

pp. 2091-2099 ◽

Cited By ~ 31

Author(s):

Junfeng Wang ◽

Shan Jin ◽

Senol Akay ◽

Binghe Wang

Keyword(s):

Boronic Acid ◽

Long Wavelength ◽

Design And Synthesis

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The Preparation and Photovoltaic Properties of Quasi-solid State Dye-Sensitized Solar Cells Containing Long Wavelength Absorbing Squaraine Dye

Molecular Crystals and Liquid Crystals ◽

10.1080/15421406.2013.808569 ◽

2013 ◽

Vol 581 (1) ◽

pp. 108-115

Author(s):

Tran Thanh Trang ◽

Sang Ah Kim ◽

Jong Hun Cheon ◽

Jeong Gwan Lee ◽

Moonyong Lee ◽

...

Keyword(s):

Solar Cells ◽

Solid State ◽

Dye Sensitized Solar Cells ◽

Photovoltaic Properties ◽

Long Wavelength ◽

Dye Sensitized ◽

Squaraine Dye ◽

Sensitized Solar Cells

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Activated Prominences; Mechanisms for Activation and Eruption

International Astronomical Union Colloquium ◽

10.1017/s0252921100065714 ◽

1979 ◽

Vol 44 ◽

pp. 307-313

Author(s):

D.S. Spicer

Keyword(s):

Pressure Gradient ◽

Density Gradient ◽

Current Density ◽

Convective Instability ◽

Tearing Mode ◽

Magnetic Shear ◽

Long Wavelength ◽

Ideal Mhd ◽

Gradient Change ◽

Accelerated Particles

A possible relationship between the hot prominence transition sheath, increased internal turbulent and/or helical motion prior to prominence eruption and the prominence eruption (“disparition brusque”) is discussed. The associated darkening of the filament or brightening of the prominence is interpreted as a change in the prominence’s internal pressure gradient which, if of the correct sign, can lead to short wavelength turbulent convection within the prominence. Associated with such a pressure gradient change may be the alteration of the current density gradient within the prominence. Such a change in the current density gradient may also be due to the relative motion of the neighbouring plages thereby increasing the magnetic shear within the prominence, i.e., steepening the current density gradient. Depending on the magnitude of the current density gradient, i.e., magnetic shear, disruption of the prominence can occur by either a long wavelength ideal MHD helical (“kink”) convective instability and/or a long wavelength resistive helical (“kink”) convective instability (tearing mode). The long wavelength ideal MHD helical instability will lead to helical rotation and thus unwinding due to diamagnetic effects and plasma ejections due to convection. The long wavelength resistive helical instability will lead to both unwinding and plasma ejections, but also to accelerated plasma flow, long wavelength magnetic field filamentation, accelerated particles and long wavelength heating internal to the prominence.

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Prostatic Acid Phosphatase (PAP) Differentiated Ultracytochemically from Lysosomal Acid Phosphate in the Rat with a PAP/Specific Substrate, Phosphorylcholine

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100115870 ◽

1975 ◽

Vol 33 ◽

pp. 450-451

Author(s):

W. Allen Shannon ◽

José A. Serrano ◽

Hannah L. Wasserkrug ◽

Anna A. Serrano ◽

Arnold M. Seligman

Keyword(s):

Acid Phosphatase ◽

Phosphate Buffer ◽

Prostatic Carcinoma ◽

Prostatic Acid Phosphatase ◽

Chemotherapeutic Agents ◽

Specific Substrate ◽

Acid Phosphate ◽

Lysosomal Acid ◽

Design And Synthesis ◽

New Chemotherapeutic Agents

During the design and synthesis of new chemotherapeutic agents for prostatic carcinoma based on phosphorylated agents which might be enzyme-activated to cytotoxicity, phosphorylcholine, [(CH3)3+NCH2CH2OPO3Ca]Cl-, has been indicated to be a very specific substrate for prostatic acid phosphatase (PAP). This phenomenon has led to the development of specific histochemical and ultracytochemical methods for PAP using modifications of the Gomori lead method for acid phosphatase. Comparative histochemical results in prostate and kidney of the rat have been published earlier with phosphorylcholine (PC) and β-glycerophosphate (βGP). We now report the ultracytochemical results.Minced tissues were fixed in 3% glutaraldehyde-0.1 M phosphate buffered (pH 7.4) for 1.5 hr and rinsed overnight in several changes of 0.05 M phosphate buffer (pH 7.0) containing 7.5% sucrose. Tissues were incubated 30 min to 2 hr in Gomori acid phosphatase medium (2) containing 0.1 M substrate, either PC or βGP.

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Tailoring microstructures of materials through biomimetics

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100148332 ◽

1993 ◽

Vol 51 ◽

pp. 500-501

Author(s):

Mehmet Sarikaya ◽

Ilhan A. Aksay

Keyword(s):

Chemical Properties ◽

Design And Synthesis ◽

Structure Sensitive ◽

Macro Scale ◽

Methods Of Synthesis ◽

Successive Level ◽

Engineering Materials ◽

Physical And Chemical ◽

And Chemical Properties ◽

Synthesis Of Materials

Biomimetics involves investigation of structure, function, and methods of synthesis of biological composite materials. The goal is to apply this information to the design and synthesis of materials for engineering applications.Properties of engineering materials are structure sensitive through the whole spectrum of dimensions from nanometer to macro scale. The goal in designing and processing of technological materials, therefore, is to control microstructural evolution at each of these dimensions so as to achieve predictable physical and chemical properties. Control at each successive level of dimension, however, is a major challenge as is the retention of integrity between successive levels. Engineering materials are rarely fabricated to achieve more than a few of the desired properties and the synthesis techniques usually involve high temperature or low pressure conditions that are energy inefficient and environmentally damaging.In contrast to human-made materials, organisms synthesize composites whose intricate structures are more controlled at each scale and hierarchical order.

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