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Biosequestration of Carbon Dioxide Using a Silicified Carbonic Anhydrase Catalyst
Liang-Jung Chien,수레쉬쿠마,Hsiao-Hsin Hsieh,Jui-Lung Wang 한국생물공학회 2013 Biotechnology and Bioprocess Engineering Vol.18 No.3
Using recombinant DNA technology, we constructed a dual fusion gene expression plasmid,pRCAH-30, encoding carbonic anhydrase (CA) from the cyanobacterium Synechocystis sp. PCC6803, an R5 peptide sequence, and an affinity (His)6 tag, to allow the simultaneous purification and immobilization of the encoded fusion enzyme, termed RCAH. The expressed fusion protein was approximately 30 kDa, and could be rapidly purified using affinity resins. To enhance enzyme activity,the R5 peptide facilitated immobilization by means of silicification with tetramethoxysilane; the aggregated particles were approximately 300 nm in diameter. Activity tests revealed that the enzyme functioned optimally between pH 7.0 and 7.5; maximum stability was achieved between 25and 45oC, at pH 6.0 ~ 8.0. Activity of the fusion enzyme persisted, even after encapsulation by biomimetic silicification. In fact, silicone embedding stabilized the enzyme structure, thereby increasing its stability and reusability rate under different environmental conditions. In addition, the silicified enzyme reduced waste CO2 gas from 800 to 42 ppm, resulting in a gas capture rate of 94.7% after conversion. Thus, the construct developed in this study can be effectively utilized for the sequestration of industrial waste CO2 gas.
WAN-WEI WANG,LUNG-CHIEN CHEN,YA-HSIN WANG 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2012 NANO Vol.7 No.5
Large-area GaN-based blue light-emitting diodes (LEDs) on sapphire substrates with an omnidirectional nanostructure consisted of Ag nanoparticles and TiO2/SiO2 Bragg re°ector were fabricated. For the LEDs without the omnidirectional nanostructure, the spectra of the P- and S-polarization light are lightly di®erent and the peak wavelength of P- and S-polarization light was estimated to be 464 nm and 463 nm, respectively at forward current of 20 mA. In contrast, for the LEDs with the omnidirectional nanostructure, the spectra of the P- and S-polarization light are nearly the same at forward current of 20mA and 100 mA.
Jeong, Kwang-Un,Jang, Ji-Hyun,Kim, Dae-Yoon,Nah, Changwoon,Lee, Joong Hee,Lee, Myong-Hoon,Sun, Hao-Jan,Wang, Chien-Lung,Cheng, Stephen Z. D.,Thomas, Edwin L. Royal Society of Chemistry 2011 Journal of materials chemistry Vol.21 No.19
<P>Combining the physical principle of actuators with the basic concept of photonic crystals, colour-tunable three-dimensional (3D) photonic actuators were successfully fabricated. By controlling the <I>d</I>-spacings and the refractive index contrasts of the self-assembled 3D colloidal photonic crystals, colours of the photonic actuators were tuned. Various shapes of these 3D actuating objects were constructed by transforming the programmed 2D structures <I>via</I> bending, twisting and folding mechanisms. These 2D structures were first programmed by breaking the symmetry. The selective swellings were then applied as driving forces to control the shapes and colours of the photonic actuators. Scroll photonic actuators had been first demonstrated by bending the traditional 2D cantilever structure (K.-U. Jeong, <I>et al.</I>, <I>J.</I><I>Mater.</I><I>Chem.</I>, 2009, <B>19</B>, 1956). By breaking the symmetry of a cantilever structure perpendicular to its long axis, polypeptide-/DNA-like 3D helical photonic actuators were obtained from the programmed 2D structure <I>via</I> twisting processes. Both left- and right-handed scrolls and helices with various colours can be achieved by changing the polarity of solvents. Different types of 3D actuators, such as cube, pyramid and phlat ball, were also demonstrated <I>via</I> the folding mechanism. The reversible 3D photonic actuators transformed from the programmed 2D structures <I>via</I> the bending, twisting and folding mechanisms may be applied in the field of mechanical actuators, and optoelectronic and bio-mimetic devices.</P> <P>Graphic Abstract</P><P>Reversible colour and shape tunable photonic actuators were constructed by transforming the programmed 2D structures to the 3D objects <I>via</I> bending, twisting and folding mechanisms. <IMG SRC='http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=c0jm03631e'> </P>