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Farm-waste-derived recyclable photothermal evaporator (2022)

Tian, Yanpei ; Liu, Xiaojie ; Li, Jiansheng ; [et al.]

Cell Press

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Publication Date: 2022-11-18

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Tian, Y., Liu, X., Li, J., Deng, Y., DeGiorgis, J. A., Zhou, S., Caratenuto, A., Minus, M. L., Wan, Y., Xiao, G., & Zheng, Y. Farm-waste-derived recyclable photothermal evaporator. Cell Reports Physical Science, 2(9), (2021): 100549, https://doi.org/10.1016./j.xcrp.2021.100549

Description: Interfacial solar steam generation is emerging as a promising technique for efficient desalination. Although increasing efforts have been made, challenges exist for achieving a balance among a plethora of performance indicators—for example, rapid evaporation, durability, low-cost deployment, and salt rejection. Here, we demonstrate that carbonized manure can convert 98% of sunlight into heat, and the strong capillarity of porous carbon fibers networks pumps sufficient water to evaporation interfaces. Salt diffusion within microchannels enables quick salt drainage to the bulk seawater to prevent salt accumulation. With these advantages, this biomass-derived evaporator is demonstrated to feature a high evaporation rate of 2.81 kg m−2 h−1 under 1 sun with broad robustness to acidity and alkalinity. These advantages, together with facial deployment, offer an approach for converting farm waste to energy with high efficiency and easy implementation, which is particularly well suited for developing regions.

Description: This project is supported by the National Science Foundation through grant no. CBET-1941743. This project is based upon work supported in part by the National Science Foundation under EPSCoR Cooperative Agreement no. OIA-1655221.

Keywords: Biomass ; Recyclable ; Manure ; Farm waste ; Photothermal evaporation ; Desalination

Repository Name: Woods Hole Open Access Server

Type: Article

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Yeast cell death pathway requiring AP-3 vesicle trafficking leads to vacuole/lysosome membrane permeabilization (2022)

Stolp, Zachary D. ; Kulkarni, Madhura ; Liu, Yining ; [et al.]

Cell Press

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Publication Date: 2022-10-27

Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Stolp, Z. D., Kulkarni, M., Liu, Y., Zhu, C., Jalisi, A., Lin, S., Casadevall, A., Cunningham, K. W., Pineda, F. J., Teng, X., & Hardwick, J. M. Yeast cell death pathway requiring AP-3 vesicle trafficking leads to vacuole/lysosome membrane permeabilization. Cell Reports, 39(2), (2022): 110647, https://doi.org/10.1016/j.celrep.2022.110647.

Description: Unicellular eukaryotes have been suggested as undergoing self-inflicted destruction. However, molecular details are sparse compared with the mechanisms of programmed/regulated cell death known for human cells and animal models. Here, we report a molecular cell death pathway in Saccharomyces cerevisiae leading to vacuole/lysosome membrane permeabilization. Following a transient cell death stimulus, yeast cells die slowly over several hours, consistent with an ongoing molecular dying process. A genome-wide screen for death-promoting factors identified all subunits of the AP-3 complex, a vesicle trafficking adapter known to transport and install newly synthesized proteins on the vacuole/lysosome membrane. To promote cell death, AP-3 requires its Arf1-GTPase-dependent vesicle trafficking function and the kinase Yck3, which is selectively transported to the vacuole membrane by AP-3. Video microscopy revealed a sequence of events where vacuole permeability precedes the loss of plasma membrane integrity. AP-3-dependent death appears to be conserved in the human pathogenic yeast Cryptococcus neoformans.

Description: Funding sources: National Institutes of Health, United States grants AI144373 and NS127076 (J.M.H.), AI115016 and AI153414 (K.W.C.), and AI052733, AI152078, and HL059842 (A.C.); National Natural Science Foundation of China 31970550; and the Priority Academic Program Development of the Jiangsu Higher Education Institutes (X.T.).

Keywords: Yeast ; Programmed cell death ; Vesicle trafficking ; AP-3 ; Vacuole ; Cryptococcus ; Yck3 ; Regulated cell death ; Lysosome ; Vacuolar membrane permeabilization

Repository Name: Woods Hole Open Access Server

Type: Article

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Study on desalination by a flowing liquid membrane (2006)

Naim, M.M. ; Monir, A.A.

Alexandria Univeristy, Faculty of Engineering

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Publication Date: 2021-05-19

Description: This paper is published in5th International Conference on Role of Engineering towards a Better EnvironmentAlexandria, Egypt, 11-13 December, 2004

Description: Desalination is characterized by rapidly evolving technologies. These technologies are divided mainly into thermal and membrane processes. Thermal processes, however, have numerous limitations, which include intensive use of energy and corrosion problems while membrane processes suffer from membrane fouling and high membrane cost and other problems. Liquid membrane (LMs), on the other hand, which have been discovered in 1968 by Li have no pores to be blocked and cannot be fouled like solid membranes. They also exhibit higher permeabilities and higher selectivities than solid membranes. However, their main problem is the method of containing the liquid between the two miscible but separated donor phase (DP) and receptor phase (RP). LM techniques include mainly emulsion LMs, supporting LMs, bulk LMs, hollow fiber contained LM, electrostatic pseudo LM, spirally wound LMs, and flowing LM sectâ ¦. Desalination using emulsion LMs has been accomplished effectively and for the first time, by Naim (2001) and has been investigated using a supported LM by Naim and Monir (2002). In the present work desalination was attempted using the flowing LM in which the saline DP and RP are made to flow either co- or counter- currently to each other while being separated by two cellophane sheets that are made to contain the organic membrane liquid. Variables, which could affect the degree of desalination, have been investigated in this work. The variables included volume ratio of DP to RP, presence of sequestrant in the RP, type and quantity of sequestering agent, presence or absence of LM, type of membrane liquid, type of organic LM, presence or absence of mobile carrier (MC) in the LM and its quantity, flow rate of DP and RP, and presence of supporting screens to support the cellophane sheets that contain the LM. In all the experiments simulated seawater was used (35-41 g NaCl/L). The results showed that all the variables had an effect on the progress of desalination to different extents, but the factors of prime importance were flow rates of DP and RP, volume ratio of DP to RP, quantity and type of complexation agent in RP, and type of membrane liquid. The results also showed that actual flow of the LM would have surely improved the results, but which could not be fulfilled due to technical difficulties.

Description: Facuty of Engineering- Alexandria Universty

Description: Published

Keywords: Liquid membrane ; Environments ; Desalination

Repository Name: AquaDocs

Type: Proceedings Paper , Non-Refereed

Format: 240929 bytes

Format: application/pdf

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