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294 results on '"Hu L."'

1. Multifunctional hierarchical electronic skins : Unveiling self-repairing mechanisms and advancements in sensing and shielding performance

Author

Qu, M., Hu, L., Wang, S., Chen, H., Yang, G., Schubert, D. W., Chen, R., Nilsson, Fritjof, Han, L., Qu, M., Hu, L., Wang, S., Chen, H., Yang, G., Schubert, D. W., Chen, R., Nilsson, Fritjof, and Han, L.

Abstract

In light of advancements in electronic skins (E-skins), their application in extreme environments poses significant challenges. Inspired by real human skin, we have developed a hierarchical structured electronic skin that utilizes flexible carbon fiber fabric as a framework. Copper nanoflakes and embedded sensors function as the neural layer, while Ethylene Vinyl Acetate acts as the dermal layer, and Polytetrafluoroethylene is employed as the epidermal layer. The reported E-skin demonstrates outstanding flexibility, excellent heat resistance, robust mechanical properties (fracture strength of 1600 MPa, Young's modulus approximately 3.8 GPa), exceptional bending/compression strain performance, excellent hydrophobicity (water contact angle of 120°), effective electromagnetic shielding performance (approximately 45 dB total shielding effectiveness for X-band), and electromagnetic wave absorption capability. Additionally, this E-skin possesses self-healing properties, capable of restoring to its original hydrophobic state within 30 s under a 9V voltage through the Joule heating effect, complemented by corresponding theoretical and mathematical modeling. This E-skin introduces a novel, environmentally friendly, and operationally simple strategy for enhancing the extreme environment resistance and durability of flexible devices.

Published
2024
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11. Polysarcosine-based lipid formulations for intracranial delivery of mRNA

Author

Bi, D., Unthan, D.M., Hu, L., Bussmann, J., Remaut, K., Barz, M., and Zhang, H.

Subjects
Pharmaceutical Science
Abstract

Messenger RNA (mRNA) is revolutionizing the future of therapeutics in a variety of diseases, including neurological disorders. Lipid formulations have shown to be an effective platform technology for mRNA delivery and are the basis for the approved mRNA vaccines. In many of these lipid formulations, polyethylene glycol (PEG)-functionalized lipid provides steric stabilization and thus plays a key role in improving the stability both ex vivo and in vivo. However, immune responses towards PEGylated lipids may compromise the use of those lipids in some applications (e.g., induction of antigen specific tolerance), or within sensitive tissues (e.g., central nervous system (CNS)). With respect to this issue, polysarcosine (pSar)-based lipopolymers were investigated as an alternative to PEG-lipid in mRNA lipoplexes for controlled intracerebral protein expression in this study. Four polysarcosine-lipids with defined sarcosine average molecular weight (Mn = 2 k, 5 k) and anchor diacyl chain length (m = 14, 18) were synthesized, and incorporated into cationic liposomes. We found that the content, pSar chain length and carbon tail lengths of pSar-lipids govern the transfection efficiency and biodistribution. Increasing carbon diacyl chain length of pSar-lipid led up to 4- and 6-fold lower protein expression in vitro. When the length of either pSar chain or lipid carbon tail increased, the transfection efficiency decreased while the circulation time was prolonged. mRNA lipoplexes containing 2.5% C14-pSar2k resulted in the highest mRNA translation in the brain of zebrafish embryos through intraventricular injection, while C18-pSar2k-liposomes showed a comparable circulation with DSPE-PEG2k-liposomes after systemic administration. To conclude, pSar-lipid enable efficient mRNA delivery, and can substitute PEG-lipids in lipid formulations for controlled protein expression within the CNS.

Published
2023
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15. Triboelectric backgrounds to radio-based polar ultra-high energy neutrino (UHEN) experiments

Author

Aguilar, J.A., primary, Anker, A., additional, Allison, P., additional, Archambault, S., additional, Baldi, P., additional, Barwick, S.W., additional, Beatty, J.J., additional, Beise, J., additional, Besson, D., additional, Bishop, A., additional, Bondarev, E., additional, Botner, O., additional, Bouma, S., additional, Buitink, S., additional, Cataldo, M., additional, Chen, C.C., additional, Chen, C.H., additional, Chen, P., additional, Chen, Y.C., additional, Choi, T., additional, Clark, B.A., additional, Clay, W., additional, Curtis-Ginsberg, Z., additional, Connolly, A., additional, Cremonesi, L., additional, Dasgupta, P., additional, Davies, J., additional, de Kockere, S., additional, de Vries, K.D., additional, Deaconu, C., additional, DuVernois, M.A., additional, Flaherty, J., additional, Friedman, E., additional, Gaior, R., additional, Gaswint, G., additional, Glaser, C., additional, Hallgren, A., additional, Hallmann, S., additional, Ham, Y.-B., additional, Hanson, J.C., additional, Harty, N., additional, Hendricks, B., additional, Hoffman, K.D., additional, Hong, E., additional, Hornhuber, C., additional, Hsu, S.Y., additional, Hu, L., additional, Huang, J.J., additional, Huang, M.-H., additional, Hughes, K., additional, Ishihara, A., additional, Jee, G., additional, Jung, J., additional, Karle, A., additional, Kelley, J.L., additional, Klein, S.R., additional, Kleinfelder, S.A., additional, Kim, J., additional, Kim, K.-C., additional, Kim, M.-C., additional, Kravchenko, I., additional, Krebs, R., additional, Ku, Y., additional, Kuo, C.Y., additional, Kurusu, K., additional, Kwon, Hyuck-Jin, additional, Lahmann, R., additional, Landsman, H., additional, Latif, U., additional, Lee, C., additional, Leung, C.-H., additional, Li, C.-J., additional, Liu, J., additional, Liu, T.-C., additional, Lu, M.-Y., additional, Madison, K., additional, Mammo, J., additional, Mase, K., additional, McAleer, S., additional, Meures, T., additional, Meyers, Z.S., additional, Michaels, K., additional, Mikhailova, M., additional, Mulrey, K., additional, Nam, J., additional, Nichol, R.J., additional, Nir, G., additional, Nelles, A., additional, Novikov, A., additional, Nozdrina, A., additional, Oberla, E., additional, Oeyen, B., additional, Osborn, J., additional, Pan, Y., additional, Pandya, H., additional, Paul, M.P., additional, Persichilli, C., additional, Pfendner, C., additional, Plaisier, I., additional, Punsuebsay, N., additional, Pyras, L., additional, Rice-Smith, R., additional, Roth, J., additional, Ryckbosch, D., additional, Scholten, O., additional, Seckel, D., additional, Seikh, M.F.H., additional, Shiao, Y.-S., additional, Shin, B.-K., additional, Shultz, A., additional, Smith, D., additional, Southall, D., additional, Tatar, J., additional, Torres, J., additional, Toscano, S., additional, Tosi, D., additional, Touart, J., additional, Van Den Broeck, D.J., additional, van Eijndhoven, N., additional, Varner, G.S., additional, Vieregg, A.G., additional, Wang, M.-Z., additional, Wang, S.-H., additional, Wang, Y.H., additional, Welling, C., additional, Williams, D.R., additional, Wissel, S., additional, Xie, C., additional, Yoshida, S., additional, Young, R., additional, Zhao, L., additional, and Zink, A., additional

Published
2023
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21. Perineural Invasion Combined with Pattern C of the Silva Classification System Correlates Poor Prognosis in Cervical Adenocarcinoma Following a Radical Hysterectomy

Author

JieHui, L., primary, Mu, J., additional, Li, F., additional, Ran, L., additional, Du, Y., additional, Mei, F., additional, Hu, L., additional, Tian, X., additional, Hong, W., additional, Mao, W., additional, Qin, Y., additional, Li, M., additional, Yin, S., additional, and Lu, B., additional

Published
2022
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23. Initial Provider and Patient-Reported Outcomes of a Phase II Study of Short Course Hypofractionated Proton Beam Therapy Incorporating 18F-DOPA-PET/MRI for Elderly Patients with Newly Diagnosed Glioblastoma

Author

Laughlin, B., primary, DeWees, T.A., additional, Petersen, M., additional, Kosiorek, H.E., additional, Porter, A.B., additional, Brown, P.D., additional, Laack, N.N., additional, Sio, T.T.W., additional, Ashman, J.B., additional, Bendok, B.R., additional, Swanson, K., additional, Liu, W., additional, Hu, L., additional, Yang, M., additional, Mrugala, M., additional, Zhou, Y., additional, Brinkman, D., additional, Beltran, C., additional, Pafundi, D.H., additional, Mullan, B., additional, and Vora, S.A., additional

Published
2022
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24. Targeting Nuclear Pore Complex to Radiosensitize Glioblastoma Stem Cells

Author

Yang, K., primary, Ci, S., additional, Zhang, J., additional, Lu, C., additional, Zhang, Q., additional, Wu, Q., additional, Hu, L., additional, Gao, J., additional, Li, D., additional, Shan, D., additional, Li, Y., additional, Li, L., additional, Zhao, L., additional, Agnihotri, S., additional, Qian, X., additional, Shi, Y., additional, Zhang, N., additional, You, Y., additional, Wang, X., additional, and Rich, J.N., additional

Published
2022
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25. Comparison of Hematotoxicity of Pegylated Recombinant Human Granulocyte Colony-Stimulating Factor (PEG-rhG-CSF) Combined with Dual-Agent Concurrent Chemoradiotherapy and Cisplatin Concurrent Chemoradiotherapy for Locally Advanced Cervical Cancer

Author

JieHui, L., primary, Yin, S., additional, Li, F., additional, Zhou, Y., additional, Mao, W., additional, Mei, F., additional, Hu, L., additional, Du, Y., additional, Tian, X., additional, Hong, W., additional, Mu, J., additional, Qin, Y., additional, Li, M., additional, and Lu, B., additional

Published
2022
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26. P.128 Integrated analyses of data from clinical trials of delandistrogene moxeparvovec in DMD

Author

Zaidman, C., primary, Shieh, P., additional, Proud, C., additional, McDonald, C., additional, Day, J., additional, Mason, S., additional, Guridi, M., additional, Hu, L., additional, Yu, L., additional, Reid, C., additional, Darton, E., additional, Wandel, C., additional, Richardson, J., additional, Malhotra, J., additional, Singh, T., additional, Rodino-Klapac, L., additional, and Mendell, J., additional

Published
2022
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28. P.134a Phase 1/2a trial of delandistrogene moxeparvovec in patients with DMD: 4-year update

Author

Mendell, J., primary, Sahenk, Z., additional, Lehman, K., additional, Lowes, L., additional, Reash, N., additional, Iammarino, M., additional, Alfano, L., additional, Lewis, S., additional, Church, K., additional, Shell, R., additional, Potter, R., additional, Griffin, D., additional, Pozsgai, E., additional, Hogan, M., additional, Hu, L., additional, Mason, S., additional, Darton, E., additional, and Rodino-Klapac, L., additional

Published
2022
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31. Oxidation and coagulation/adsorption dual effects of ferrate (VI) pretreatment on organics removal and membrane fouling alleviation in UF process during secondary effluent treatment.

Author

Ding, A, Ren, Z, Hu, L, Zhang, R, Ngo, HH, Lv, D, Nan, J, Li, G, Ma, J, Ding, A, Ren, Z, Hu, L, Zhang, R, Ngo, HH, Lv, D, Nan, J, Li, G, and Ma, J

Abstract

Ultrafiltration (UF) has been widely used in water and advanced sewage treatment. Unfortunately, membrane fouling is still the main obstacle to further improvement in the system. Fe (III) salt, a type of traditional coagulant, is often applied to mitigate UF membrane fouling. However, low molecule organic weight cannot be effectively removed, thus the water quality after single coagulation treatment does not effectively meet the standard of subsequent water reuse during secondary effluent treatment. Recently, it has been found that potassium ferrate (Fe (VI)) has multiple functions of oxidation, sterilization and coagulation, with other studies proving its good performance in organics removal and membrane fouling mitigation. However, the respective contributions of oxidation and coagulation/adsorption have not yet been fully understood. The oxidation and coagulation/adsorption effects of Fe (VI) during membrane fouling mitigation were investigated here. The oxidation effect of Fe (VI) was the main reason for organics with the MW of 8-20 kDa removal, and its coagulation/adsorption mainly accounted for the smaller amounts of molecular organics removed. The oxidation of Fe (VI) was the main method for overcoming membrane fouling in the initial filtration; it largely alleviated the standard blockage. The formation of a cake layer transformed the main membrane fouling alleviation mechanism from oxidation to coagulation/adsorption and further removed smaller amounts of molecule organics with the increase of filtration cycles and Fe (VI) dosages. The main fouling mechanism altered from standard blocking and cake filtration to only cake filtration after Fe (VI) treatment. Overall, the mechanism of the oxidation and coagulation/adsorption of Fe (VI) were differentiated, and would provide a reference for future Fe (VI) pretreatment in UF membrane fouling control during water and wastewater treatments.

Published
2022

35. Dosimetric Comparison of Intensity Modulated Radiotherapy (IMRT) and Intensity Modulated Proton Therapy (IMPT) for Novel Oral Tongue Avoidance Concept in Low-Risk Squamous Cell Carcinoma of the Oral Tongue

Author

Press, R.H., primary, Hu, L., additional, Huang, S., additional, Hasan, S., additional, Choi, I.J., additional, Simone, C.B., additional, Chhabra, A.M., additional, Gelblum, D., additional, Kabarriti, R., additional, Sharma, S., additional, Bakst, R.L., additional, Cracchiolo, J., additional, McBride, S.M., additional, and Lee, N.Y., additional

Published
2022
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40. A Phase II, Single-Arm, Prospective Clinical Trial for the Efficacy and Safety of Apatinib Combined With Capecitabine in Therapy for Recurrent/Metastatic and Persistent Cervical Cancer After Radiochemotherapy

Author

Li, J., primary, Mao, W., additional, Li, F., additional, Ran, L., additional, Chang, J., additional, Mei, F., additional, Hu, L., additional, Du, Y., additional, Tian, X., additional, Liu, M., additional, Chen, Y., additional, Shan, L., additional, Mu, J., additional, Yin, S., additional, Qin, Y., additional, and Liang, N., additional

Published
2021
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41. A Phase III Prospective Randomized Controlled Clinical Trial for the Efficacy and Safety of Neoadjuvant Chemotherapy Combined With Concurrent Chemoradiotherapy and Concurrent Chemoradiotherapy for Locally Advanced Cervical Cancer (Lump ≥4 cm)

Author

Li, F., primary, Li, J., additional, Yin, S., additional, Mei, F., additional, Du, Y., additional, Hu, L., additional, Tian, X., additional, Hong, W., additional, Shan, L., additional, Liu, M., additional, Chen, Y., additional, Mao, W., additional, Mu, J., additional, and Lu, B., additional

Published
2021
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42. CLINICAL TRIAL HIGHLIGHTS

Author

Mendell, J., primary, Shieh, P., additional, Sahenk, Z., additional, Lehman, K., additional, Lowes, L., additional, Reash, N., additional, Iammarino, M., additional, Alfano, L., additional, Powers, B., additional, Woods, J., additional, Skura, C., additional, Mao, H., additional, Staudt, L., additional, Potter, R., additional, Griffin, D., additional, Lewis, S., additional, Hu, L., additional, Upadhyay, S., additional, Singh, T., additional, and Rodino-Klapac, L., additional

Published
2021
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50. Studying the mix design and investigating the photocatalytic performance of pervious concrete containing TiO2-Soaked recycled aggregates

Author

Xu, Y, Jin, R, Hu, L, Li, B, Chen, W, Shen, J, Wu, P, and Fang, J

Subjects
Pervious concreteMechanical properties, Photocatalytic effects, Recycled aggregate, Titanium dioxide, Recycled aggregate concrete
Abstract

Demolished concrete, as one main form of construction and demolition wastes, has been widely studied of being utilized as recycled aggregates (RAs) in new concrete production. However, existing studies of applying RAs have been limited to the mechanical and durability issues of cementitious composites containing RAs.

Published
2020
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