![]() The association between LINC00511 expression and clinicopathological features was assessed using odd ratios (ORs) and their corresponding 95% CIs. The relationship between LINC00511 expression and cancer patients' survival, including overall survival (OS), disease-free survival (DFS)/relapse-free survival (RFS) and progression-free survival (PFS), was evaluated using pooled hazard ratios (HRs) with their corresponding 95% confidence intervals (CIs). Relevant studies published before Decemwere systematically searched online in PubMed, EMBASE, Web of Science, and the Cochrane Library databases. Methods In the present study, a meta-analysis of related studies has been performed to investigate the prognostic significance of LINC00511 in cancer patients. In view of contradictory data among published data, we aim to evaluate the prognostic role of LINC00511 for cancer patients. Metal-Organic Frameworks as a Platform for CO2 Capture and Chemical Processes: Adsorption, Membrane Separation, Catalytic-Conversion, and Electrochemical Reduction of CO2.Abstract : Background Long intergenic non-coding RNA 00511 (LINC00511) is highly expressed in diverse cancers and has a correlation with poor clinical outcomes for cancer patients. Salma Ehab Mohamed Elhenawy, Majeda Khraisheh, Fares AlMomani, Gavin Walker.MOFs in carbon capture-past, present and future. Recent advances in carbon capture storage and utilisation technologies: a review. Journal of Solid State Chemistry 2021, 297, 122049. Rational design and synthesis of a task-specific porous organic framework featured azobenzene as a photoresponsive low-energy CO2 adsorbent. Rongrong Yuan, Hao Sun, Zhuojun Yan, Hongming He.Scaling CO2 Capture With Downstream Flow CO2 Conversion to Ethanol. Metal–Organic Frameworks as Promising Catalysts for CO2 Capture and Fixation. Chinese Journal of Chemical Engineering 2022, 43, 24-30. Fabrication of azobenzene-functionalized porous polymers for selective CO2 capture. Ding-Ming Xue, Wen-Juan Zhang, Xiao-Qin Liu, Shi-Chao Qi, Lin-Bing Sun.Environmental Functional Materials 2022, 1 Light-response adsorption and desorption behaviors of metal–organic frameworks. Chao-Yang Wang, Lingshan Ma, Chong-Chen Wang, Peng Wang, Leonardo Gutierrez, Weiwei Zheng.International Journal of Molecular Sciences 2022, 23 Advances in the Structural Strategies of the Self-Assembly of Photoresponsive Supramolecular Systems. Contreras-Torres, Rodrigo Cué-Sampedro, José Antonio Sánchez-Fernández. Large-Scale Screening and Machine Learning for Metal–Organic Framework Membranes to Capture CO2 from Flue Gas. Yizhen Situ, Xueying Yuan, Xiangning Bai, Shuhua Li, Hong Liang, Xin Zhu, Bangfen Wang, Zhiwei Qiao.Recent Progress in Azopyridine-Containing Supramolecular Assembly: From Photoresponsive Liquid Crystals to Light-Driven Devices. Photosynthetic cell factories, a new paradigm for carbon dioxide (CO2) valorization. Bijaya Nag, Abdalah Makaranga, Mukul Suresh Kareya, Asha Arumugam Nesamma, Pannaga Pavan Jutur.Journal of Chemical Information and Modeling 2021, 61 Rational Design of Nonbonded Point Charge Models for Divalent Metal Cations with Lennard-Jones 12-6 Potential. Yongguang Zhang, Yang Jiang, Jiarong Peng, Haiyang Zhang.Metal−Organic Frameworks for Capturing Carbon Dioxide from Flue Gas. Himani Sabherwal Anamika Tewatia Smita S Kumar Manbir Singh Navish Kataria.ACS Applied Materials & Interfaces 2022, 14 Rational Design of Smart Metal–Organic Frameworks for Light-Modulated Gas Transport. Journal of Chemical Information and Modeling 2022, 62 Interpretable Graph Transformer Network for Predicting Adsorption Isotherms of Metal–Organic Frameworks. Pin Chen, Rui Jiao, Jinyu Liu, Yang Liu, Yutong Lu.This article is cited by 16 publications. ![]()
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