Article
Green & Sustainable Science & Technology
Veli Simsek, Rahmiye Zerrin Yarbay, Vedat Marttin, Ulkuye Dudu Gul
Summary: A novel bio-based adsorbent was developed by combining an effective catalyst and naturally available fungal wastes, and its dye removal capacity was determined. Optimal conditions for dye biosorption were determined, and the maximum removal of Reactive Red 120 was achieved using the bioadsorbent at pH 4 with an initial dye concentration of 20 mg/L after 60 min, with a maximum removal rate of 94.75%.
JOURNAL OF CLEANER PRODUCTION
(2023)
Article
Environmental Sciences
G. Koulini, A. R. Laiju, S. T. Ramesh, R. Gandhimathi, P. Nidheesh
Summary: The study demonstrates that the electro-peroxone (EP) process is effective in degrading dyes and exhibits high efficiency in decolorization and organic carbon removal in real textile effluent, offering a cost-effective and environmentally friendly solution.
Article
Environmental Sciences
Qian Zeng, Yu Wang, Feixiang Zan, Samir Kumar Khanal, Tianwei Hao
Summary: The research found that biogenic sulfide achieved decolorization of azo dye by directly cleaving azo bonds, with the decolorization efficiency increased up to 3-fold by adding an external carbon source or elevating the initial azo dye concentration. Biogenic sulfide plays a vital role in azo dye decolorization, offering a new possibility for treating dye-laden wastewater.
Article
Engineering, Environmental
Carlos Magno Tolentino Filho, Regilene de Sousa Silva, Carolina D' Avila Kramer Cavalcanti, Miguel Angelo Granato, Ricardo Antonio Francisco Machado, Cintia Marangoni
Summary: This study investigated the influence of dye concentration on the performance of the membrane distillation process. The results showed that an increase in dye concentration led to a decrease in permeate flux, but the color rejection rate remained above 98%. The fouling factor was higher for disperse dye, but the membrane demonstrated good resistance to high concentration solutions, indicating the efficiency and feasibility of membrane distillation in the recovery of textile wastewater.
JOURNAL OF WATER PROCESS ENGINEERING
(2022)
Article
Engineering, Chemical
Marta Mendes, Irina S. Moreira, Patricia Moreira, Manuela Pintado, Paula M. L. Castro
Summary: A yeast-bioaugmented aerobic granular sludge (AGS) system was developed using a sequencing batch reactor (SBR) inoculated with activated sludge and a dye-decolorizing yeast strain-Yarrowia lipolytica (HOMOGST27AB). The AGS-SBR system effectively removed carbon and nitrogen from synthetic saline wastewater, without being affected by the reactive textile dye addition. Successful bioaugmentation with Y. lipolytica (HOMOGST27AB) was confirmed through sequencing analysis of granule samples throughout the reactor operation. The microbial profile of the AGS core microbiome showed a dynamic composition, with shifts in abundance of different bacterial phyla during different phases of the bioreactor operation.
Article
Chemistry, Multidisciplinary
Shazia Perveen, Raziya Nadeem, Farhat Nosheen, Muhammad Imran Asjad, Jan Awrejcewicz, Tauseef Anwar
Summary: In this study, biochar-mediated zirconium ferrite nanocomposites were successfully developed for the removal of dyes from textile wastewater. The nanocomposites exhibited high adsorption efficiency and showed potential for practical engineering applications.
Article
Automation & Control Systems
Prince Kumar Rai, Vishav Kant, Rakesh Kumar Sharma, Ankur Gupta
Summary: The study aims to treat textile wastewater through an ultrasonic-assisted electrochemical process and optimize the parameters. The actual removal efficiencies of color, COD, and turbidity were found to be 97%, 66%, and 79% respectively at the optimal operating conditions. The statistical modeling validates that the artificial neural network model outperforms the response surface methodology model in predicting the removal efficiencies of color, COD, and turbidity.
ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE
(2023)
Article
Green & Sustainable Science & Technology
Neha Garg, Anurag Garg, Suparna Mukherji
Summary: In this study, the removal of the recalcitrant azo dye reactive yellow 145 (RY145) was achieved through sequential treatment using zero valent aluminum (ZVAl) and bacterial degradation. The ZVAl pretreatment resulted in significant decolorization, followed by microbial degradation of the intermediates. The combined treatment exhibited high efficiency in dye decolorization and organic compound degradation, addressing the challenges posed by RY145.
JOURNAL OF CLEANER PRODUCTION
(2022)
Review
Chemistry, Physical
Lalit Goswami, Anamika Kushwaha, Saroj Raj Kafle, Beom-Soo Kim
Summary: This review highlights the application of biochar and biochar-based nanocomposites for removing dyes from wastewater. Functionalized and surface engineered biochar-based nanocomposites are being synthesized to efficiently remove dye-contaminated wastewater. The mechanisms of dye removal include precipitation, surface complexation, ion exchange, cation-pi interactions, and electrostatic attraction. Biochar production and modification enhance its adsorption capacity. Smart technologies such as artificial neural networking and machine learning should be utilized for modeling and forecasting the potential of biochar modification.
Article
Energy & Fuels
Uzma Ramzan, Farah Rauf Shakoori, Abdul Rauf Shakoori, Syed Zaghum Abbas, Saikh Mohammad Wabaidur, Gaber E. Eldesoky, Md Ataul Islam, Mohd Rafatullah
Summary: Azo dyes, widely used in textile industries, are difficult to degrade due to their xenobiotic nature. However, recent studies have shown that many microorganisms can convert these toxic azo dyes to non-colored compounds or even mineralize them under specific environmental conditions. This study evaluated the decolorizing efficiency of newly isolated Paramecium species in textile industrial wastewater containing azo dyes. The results showed that Paramecium species had a high decolorization rate under optimum conditions, making them potentially useful for bioremediation of textile-dying industry effluents.
BIOMASS CONVERSION AND BIOREFINERY
(2022)
Article
Agricultural Engineering
Elaheh Motamedi, Kaveh Kavousi, Seyedeh Fatemeh Sadeghian Motahar, Mohammad Reza Ghaffari, Atefeh Sheykh Abdollahzadeh Mamaghani, Ghasem Hosseini Salekdeh, Shohreh Ariaeenejad
Summary: A novel thermostable/halotolerant metagenome-derived laccase, PersiLac2, was purified from tannery wastewater and showed high activity in removing textile dyes over a wide temperature and pH range. It also exhibited tolerance to metal ions and organic solvents, with effective decolorization of various dyes and significant detoxification potential. This enzyme could potentially be used for decolorization/detoxification of wastewater in the future.
BIORESOURCE TECHNOLOGY
(2021)
Article
Environmental Sciences
Somya Agarwal, Ajit Pratap Singh, Sudheer Mathur
Summary: A novel approach using chemically modified wheat straw activated carbon (WSAC) as adsorbent was developed for the removal of COD and color from cotton dyeing industry effluent. The optimization of process parameters was conducted using the central composite method, and the maximum removal efficiency for COD and color was achieved at pH 7.18, contact time 85.229 min, adsorbent dose 2.045 g/l, and temperature 40.885°C. The study highlights the importance of WSAC in treating textile effluent to reduce pollutants and promote reuse of treated effluent in the textile industry.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2023)
Article
Environmental Studies
Ahmed Eteba, M. Bassyouni, Mamdouh Saleh
Summary: Complex dyes have a negative impact on the environment and are difficult to remove using traditional methods. A series of experiments was conducted to determine the optimal parameters for the removal of direct blue 78 dye using chemically treated coal fly ash (TCFA). A pilot plant was designed and implemented to investigate the ability of TCFA to remove pollutants from textile wastewater. Various physical and chemical analyses were conducted on the fly ash. The results showed that chemical treatment significantly improved the properties of the fly ash. Batch adsorption experiments demonstrated that TCFA was effective in removing dyes under optimal conditions.
ENERGY & ENVIRONMENT
(2022)
Article
Environmental Sciences
Afnan Ahmadi Zahuri, Muhamad Fazly Abdul Patah, Yusniza Kamarulzaman, Nor Hazlina Hashim, Thinaranjeney Thirumoorthi, Wan Hanna Melini Wan Mohtar, Zarimah Mohd Hanafiah, Zulhelmi Amir, Wan Abd Al Qadr Imad Wan-Mohtar
Summary: Textile effluent in Malaysia is a major source of industrial wastewater and poses environmental and health hazards. Dolomite, used as an adsorbent, can effectively remove color, chemical oxygen demand, and inhibit bacterial growth in textile dye wastewater.
Article
Agricultural Engineering
Fahed Javed, Fahad Rehman, Asad Ullah Khan, Tahir Fazal, Ainy Hafeez, Naim Rashid
Summary: The study shows that 50% diluted RTWW under mixotrophic conditions is the most suitable choice for high treatment performance and FAMEs yield. Cultivation in mixotrophic conditions resulted in higher FAME content and COD removal compared to photo-autotrophic conditions.
BIOMASS & BIOENERGY
(2022)
Article
Materials Science, Textiles
Cigdem Akduman, E. Perrin Akcakoca Kumbasar, Isik Ozguney
AATCC JOURNAL OF RESEARCH
(2018)
Article
Materials Science, Textiles
Rumbidzai E. Zizhou, Ahmet Cay, E. Perrin Akcakoca Kumbasar, C. Ozgur Colpan
Summary: This study investigated the electrospinning of PVA/Nafion (R) nanofibers and evaluated their stability for use in direct methanol fuel cells under simulated conditions. The thermally stabilized nanofibrous membrane showed good stability against water, methanol, and oxidative effects. The membranes exhibited successful stabilization and sulfonation, preserving the nanofibrous structure even after treatments.
JOURNAL OF INDUSTRIAL TEXTILES
(2021)
Article
Materials Science, Textiles
Seniha Morsumbul, Emriye Perrin Akcakoca Kumbasar, Ahmet Cay
Summary: This study focused on the encapsulation of photochromic dyes by spray drying using an aqueous ethyl cellulose dispersion and a spirooxazine-based photochromic dye. Various encapsulation parameters were investigated and the encapsulation results were evaluated by different methods. The study determined the optimal parameters for microcapsule production and suggested that spray drying could be a practical method for producing photochromic smart textiles.
AATCC JOURNAL OF RESEARCH
(2021)
Article
Materials Science, Textiles
Ahmet Cay, Seniha Morsumbul, Emriye Perrin Akcakoca Kumbasar
Summary: In this study, exergy analysis of microencapsulation of photochromic dyes by the spray drying method was conducted. A proposed exergy model for the process of encapsulation of spirooxazine-based photochromic dye with ethyl cellulose as the solvent. The highest exergy efficiency was obtained at a drying temperature of 120 degrees C and using an aqueous system as the solvent.
AATCC JOURNAL OF RESEARCH
(2022)
Article
Materials Science, Textiles
Seniha Morsumbul, Emriye Perrin Akcakoca Kumbasar, Ahmet Cay
Summary: This article introduces a method of applying photochromic dye microcapsules to cotton fabrics and evaluates the color change, ultraviolet transmittance, and fatigue resistance of the photochromic fabrics. The experimental results show that the photochromic fabrics maintain good color and ultraviolet protection performance after multiple washings and ultraviolet irradiations. The use of hindered amine light stabilizers improves the fatigue resistance of the photochromic dye capsules.
AATCC JOURNAL OF RESEARCH
(2022)
Article
Materials Science, Textiles
Seniha Morsumbul, E. Perrin Akcakoca Kumbasar
Summary: Photochromic dyes are encapsulated with polymers and applied onto textiles to show different properties based on various factors. After multiple washing cycles, the fabrics still provide UV protection, but the color and UV protective properties may decrease after multiple UV on-off cycles.
TEKSTIL VE KONFEKSIYON
(2022)
Article
Materials Science, Textiles
Cigdem Akduman, Seniha Morsumbul, Emriye Perrin Akcakoca Kumbasar
Summary: The study focused on preparing PVA nanofibrous membranes using the electrospinning method, improving their stability to water and heat through BTCA crosslinking, and demonstrating a good adsorption capability for Reactive Red 141 dye.
AUTEX RESEARCH JOURNAL
(2021)
Proceedings Paper
Engineering, Industrial
S. Morsumbul, E. P. Akcakoca Kumbasar
AEGEAN INTERNATIONAL TEXTILE AND ADVANCED ENGINEERING CONFERENCE (AITAE 2018)
(2018)
Proceedings Paper
Engineering, Industrial
C. Akduman, E. P. Akcakoca Kumbasar, I Ozguney
AEGEAN INTERNATIONAL TEXTILE AND ADVANCED ENGINEERING CONFERENCE (AITAE 2018)
(2018)
Proceedings Paper
Materials Science, Textiles
C. Akduman, E. P. Akcakoca Kumbasar
18TH WORLD TEXTILE CONFERENCE (AUTEX 2018)
(2018)
Proceedings Paper
Materials Science, Multidisciplinary
A. Cay, E. P. Akcakoca Kumbasar, S. Morsunbul
17TH WORLD TEXTILE CONFERENCE AUTEX 2017 - SHAPING THE FUTURE OF TEXTILES
(2017)
Article
Chemistry, Applied
Leping Chen, Yanfen Wang, Tingyu Shi, Tiantian Ma, Yang Li, Huayu Qiu, Shouchun Yin, Meier Gu
Summary: This study successfully overcame the limitations of the heavy atom effect by introducing iodine atoms and innovatively enhancing the structure while weakening stacking behavior, achieving high efficiency and precision in photodynamic therapy and photothermal therapy.
Article
Chemistry, Applied
Bingpeng Guo, Honghan Sa, Peng Zhang, Guiwen Hao, Mengyu Li, Qingqing Jiang, Baoying Li, Wei Shu, Changxiang Shao
Summary: The design of ratiometric fluorescence probes with large Stokes shift is of great significance in detecting and imaging target substances in complex organisms. In this study, a novel fluorophore with a large Stokes shift was easily obtained, and a fluorescence probe based on it demonstrated rapid response, high selectivity, and sensitivity towards peroxynitrite. The probe also showed excellent biocompatibility and remarkable mitochondrial targeting ability, making it suitable for proportional imaging of peroxynitrite in living cells and zebrafish.
Review
Chemistry, Applied
Haidong Huang, Xiaohui Wang, Xinyang Li, Yichen Li, Guojin Liu, Lan Zhou, Jianzhong Shao
Summary: This article introduces the application of responsive photonic crystals in anti-counterfeiting technology, with a focus on the preparation principle, classification, and preparation methods.
Article
Chemistry, Applied
Yunpeng Wang, Tao Zhao, Xiaoye Bi, Chencheng Lv
Summary: In this study, three novel carbene dyes were designed to achieve environmentally friendly dyeing processes. The dyes formed covalent bonds with fibers and exhibited good dyeing performance and high color fastness. These findings highlight the potential of the novel carbene dyes in promoting green production in the textile industry.
Review
Chemistry, Applied
Yizhe Yan, Xiaopei Zhu, Jia-Xin Cao, Yuan He, Shaoqing Li, Jian-Yong Wang
Summary: In this paper, 1,3,5-triazine dyes were successfully synthesized and their photophysical properties were studied. Two probes were selected for further investigation, showing promising applications in various fields.
Article
Chemistry, Applied
Xin Hu, Tongsheng Huang, Lihua Chen, Weifeng Zhu, Fengjie Deng, Xiancai Li, Jianwen Tian, Meiying Liu, Xiaoyong Zhang, Yen Wei
Summary: This study presents the synthesis of fluorescent cyclomatrix polyphosphazene spheres with aggregation-induced emission (AIE) feature and biodegradable potential for controlled drug delivery. The resulting micelles exhibit high water dispersibility, desirable fluorescence performance, and high drug loading capacity. They can effectively release the encapsulated drug in physiological solution and show excellent biological imaging ability and cytotoxicity against cancer cells.
Article
Chemistry, Applied
Yanzhu Liu, Yanghui Lei, Dongyan Li, Guangkui Li, Dongping Li, Yongxiu Li
Summary: In this study, luminescent lanthanide nanoparticles were synthesized as a dual emission turn-off probe for detecting 2,6-pyridinedicarboxylic acid (DPA) in water. The nanoparticles showed good dispersion and water stability, and achieved low detection limits for DPA. They also exhibited high recoveries in various samples.
Article
Chemistry, Applied
Jung Jae Do, Jong Ryeol Kwon, Donghan Kim, Jae Woong Jung
Summary: This study presents a defect passivation approach using coumarin dye as a multi-functional passivating agent of perovskite films to boost power conversion efficiency and operating stability of PSCs. The incorporation of coumarin dye improves the film morphology, enhances carrier extraction/transport, and suppresses trap-assisted recombination in the perovskite films. The optimized device demonstrates impressive reliability and practical applicability, maintaining over 90% of its initial PCE after being exposed to continuous indoor lighting irradiation for 2000 hours.
Article
Chemistry, Applied
Gang Wang, Yu-Chang Wang, Jing Lu, Wen-Fu Yan, Juan Jin, Yuan-Peng Wang, Jia-Jia Zhang, Hui-Jie Zhang, Hao Dong, Xi-Guang Liu
Summary: A new Ni(II) compound with good solid-state fluorescence performance and stability was synthesized, and it showed outstanding detection properties for various substances in aqueous solutions. This compound has the potential to be a multifunctional sensor.
Article
Chemistry, Applied
Luyao Wei, Shenglong Shang, Yu Zheng, Jie Liu, Ping Zhu
Summary: This study developed a facile method to create high saturation and durable structural colors on cotton fabrics. The colors are regulated by adjusting the size of magnetic particles and can be conveniently printed on fabrics using photo masks on transparent films.
Article
Chemistry, Applied
Zhao Jiang, Qing Zhang, Zhaoyu Kong, Ruijie Qiao, Zichuan Liu, Linzhou Song, Senqiang Zhu, Rui Liu, Hongjun Zhu
Summary: Three heteroleptic Ir(III) complexes with different electron-donating aryl groups were synthesized and their optical properties were investigated. It was found that all three complexes exhibited aggregation-induced phosphorescence emission (AIPE) behaviors, and the relationship between the size of organic ligands and AIPE behaviors was characterized. Ir-PhCz showed the best imaging of latent fingerprints due to its green light emission and high quantum yield.
Article
Chemistry, Applied
Zhijun Ruan, Chunxia Fan, Xuanrong Wang, Dong Shao, Xiaodong Yang, Wentao He, Tao Xu, Junqi Lin, Zhengfang Tian
Summary: A novel thioketal-based probe has been designed for rapid and accurate detection of mercury (II) ions, showing different fluorescence characteristics in various states. The probe exhibits excellent selectivity and specificity, making it suitable for Hg2+ detection in water solutions.
Article
Chemistry, Applied
Jianjun Huang, Xuan Zhao, Daniel Escudero, Luc Van Meervelt, Dongbin Zheng, Yuyu Fang, Wim Dehaen
Summary: A series of BOAHY compounds were successfully synthesized and showed versatile applications as a platform for designing novel fluorescent probes, especially in selective recognition.
Article
Chemistry, Applied
Roman V. Larkovich, Victoria E. Shambalova, Savva A. Ponomarev, Alexander S. Aldoshin, Boris N. Tarasevich, Konstantin A. Lyssenko, Valentine G. Nenajdenko
Summary: An efficient synthetic protocol for the preparation of novel 1,7-difluorinated BODIPYs was elaborated. Their photophysical properties were studied and the effect of 2,6-substituents was evaluated using DFT calculations.
Article
Chemistry, Applied
Haneul Kim, Byungjin Koo
Summary: In this study, a lithium ion sensing methodology based on fluorinated naphthalene compounds using 19F NMR and UV-vis spectroscopy is reported. The binding of lithium ions to the compounds is confirmed by changes in chemical shifts and peak broadening. Additionally, the effect of different crown ether ring sizes on the binding ability is observed. This study provides a new method for lithium ion sensing using spectroscopy.