The Development of Terminal Alkynes in Water Using DEMATEL Method

In organic chemistry, an alkyne is an unsaturated, Hydrocarbon is at least one carbon-three carbon has a bond. All three alkynes are unsaturated have a bond containing hydrocarbons, Alkynes have the general formula CnH2n-2 and three The bond is called ‘acetylenic bond’. is called The functional group in the alkyne is a Carbon-carbon is three binding. Aromatics are π bonds odd number of electron in the system Planar with pairs, fully coupled and are cyclic structures. In which test to conclude from analysis and Evaluation Laboratory (DEMATEL) of complex system components A cause-and-effect chain is considered correct One of the best to identify. It values relationships Interdependence between factors and identification through visual structural modeling Important to see. Alternative: Propene (C3H6), Butene (C4H8), Pentene (C5H10), Hexene (C6H12), Heptene (C7H14). Evaluation Preference: Propene (C3H6), Butene (C4H8), Pentene (C5H10), Hexene (C6H12), Heptene (C7H14). The result it is seen that Hexene (C6H12) is got the first rank where as is the Pentene (C5H10) is having the lowest rank. The value of the dataset for Alkynes in Test and evaluate decision making the lab shows that it results in Hexene (C6H12) and top ranking.

Boyarskiy, Vadim P., Dmitry S. Ryabukhin, Nadezhda A. Bokach, and Aleksander V. Vasilyev. “Alkenylation of arenes and heteroarenes with alkynes.” Chemical Reviews116, no. 10 (2016): 5894-5986.

Chinchilla, Rafael, and Carmen Najera. “Chemicals from alkynes with palladium catalysts.” Chemical reviews114, no. 3 (2014): 1783-1826.

Li, Chao-Jun. “The development of catalytic nucleophilic additions of terminal alkynes in water.” Accounts of chemical research43, no. 4 (2010): 581-590.

Trost, Barry M., Mark T. Sorum, Chuen Chan, and Gerd Rühter. “Palladium-catalyzed additions of terminal alkynes to acceptor alkynes.” Journal of the American Chemical Society119, no. 4 (1997): 698-708.

Kanyiva, Kyalo Stephen, Natsuko Kashihara, Yoshiaki Nakao, Tamejiro Hiyama, Masato Ohashi, and Sensuke Ogoshi. “Hydrofluoroarylation of alkynes with fluoroarenes.” Dalton Transactions39, no. 43 (2010): 10483-10494.

Fang, Guichun, and Xihe Bi. “Silver-catalysed reactions of alkynes: recent advances.” Chemical Society Reviews44, no. 22 (2015): 8124-8173.

Nakao, Yoshiaki, Tomoya Yukawa, Yasuhiro Hirata, Shinichi Oda, Jun Satoh, and Tamejiro Hiyama. “Allylcyanation of alkynes: regio-and stereoselective access to functionalized di-or trisubstituted acrylonitriles.” Journal of the American Chemical Society128, no. 22 (2006): 7116-7117.

Whittaker, Aaron M., and Gojko Lalic. “Monophasic catalytic system for the selective semireduction of alkynes.” Organic letters15, no. 5 (2013): 1112-1115.

Godoi, Benhur, Ricardo F. Schumacher, and Gilson Zeni. “Synthesis of heterocycles via electrophilic cyclization of alkynes containing heteroatom.” Chemical Reviews111, no. 4 (2011): 2937-2980.

Uehling, Mycah R., Richard P. Rucker, and Gojko Lalic. “Catalytic anti-Markovnikov hydrobromination of alkynes.” Journal of the American Chemical Society136, no. 24 (2014): 8799-8803.

Nahra, Fady, Scott R. Patrick, Davide Bello, Marcel Brill, Alan Obled, David B. Cordes, Alexandra MZ Slawin, David O’Hagan, and Steven P. Nolan. “Hydrofluorination of alkynes catalysed by gold bifluorides.” ChemCatChem7, no. 2 (2015): 240-244.

Chen, Liang, and Chao-Jun Li. “A remarkably efficient coupling of acid chlorides with alkynes in water.” Organic Letters6, no. 18 (2004): 3151-3153.

Sohel, Shariar Md Abu, and Rai-Shung Liu. “Carbocyclisation of alkynes with external nucleophiles catalysed by gold, platinum and other electrophilic metals.” Chemical Society Reviews38, no. 8 (2009): 2269-2281.

Fan, Cheng, Warren E. Piers, Masood Parvez, and Robert McDonald. “Divergent reactivity of perfluoropentaphenylborole with alkynes.” Organometallics29, no. 21 (2010): 5132-5139.

Soriano, Elena, and José Marco-Contelles. “Mechanisms of the transition metal-mediated hydroarylation of alkynes and allenes.” Organometallics25, no. 19 (2006): 4542-4553.

Nakao, Yoshiaki. “Hydroarylation of alkynes catalyzed by nickel.” The Chemical Record11, no. 5 (2011): 242-251.

Dutta, Uttam, Soham Maity, Rajesh Kancherla, and Debabrata Maiti. “Aerobic Oxynitration of Alkynes with t BuONO and TEMPO.” Organic letters16, no. 24 (2014): 6302-6305.

Hintermann, Lukas, and Aurelie Labonne. “Catalytic hydration of alkynes and its application in synthesis.” Synthesis2007, no. 08 (2007): 1121-1150.

Trost, Barry M., Zachary T. Ball, and Thomas Jöge. “A chemoselective reduction of alkynes to (E)-alkenes.” Journal of the American Chemical Society 124, no. 27 (2002): 7922-7923.

Rajmohan, T., K. Palanikumar, and M. Kathirvel. “Optimization of machining parameters in drilling hybrid aluminium metal matrix composites.” Transactions of Nonferrous Metals Society of China22, no. 6 (2012): 1286-1297.

Nevado, Cristina, and Antonio M. Echavarren. “Transition metal-catalyzed hydroarylation of alkynes.” Synthesis2005, no. 02 (2005): 167-182.

Yamamoto, Yoshihiko. “Synthesis of heterocycles via transition-metal-catalyzed hydroarylation of alkynes.” Chemical Society Reviews43, no. 5 (2014): 1575-1600.

Yan, Liang, Zhen Chen, Xiongbiao Xie, and Xiaowen Zeng. “Analysis of influencing factors on the management performance of expressway construction project based on DEMATEL method.” In 2009 First International Conference on Information Science and Engineering, pp. 4198-4201. IEEE, 2009.

Rattanavijit, Supattra, Tuanjai Somboonwiwat, and Charoenchai Khompatraporn. “Analysis of Causal Competitive Factors of Thai Iron and Steel Supply Chain by DEMATEL Method.” In Industrial Engineering, Management Science and Applications 2015, pp. 541-550. Springer, Berlin, Heidelberg, 2015.

Shen, Gui-xiang, Shu-guang Sun, Ying-zhi Zhang, Zhi-qiong Wang, Bing-kun Chen, and Chuang Ma. “System failure analysis based on DEMATEL-ISM and FMECA.” Journal of Central South University 21, no. 12 (2014): 4518-4525.

Zhou, Jianli, Yunna Wu, Fangtong Liu, Yao Tao, and Jianwei Gao. “Prospects and obstacles analysis of applying blockchain technology to power trading using a deeply improved model based on the DEMATEL approach.” Sustainable Cities and Society70 (2021): 102910.

Lin, Ru-Jen. “Using fuzzy DEMATEL to evaluate the green supply chain management practices.” Journal of cleaner production40 (2013): 32-39.

Gardas, Bhaskar B., Rakesh D. Raut, and Balkrishna Narkhede. “Evaluating critical causal factors for post-harvest losses (PHL) in the fruit and vegetables supply chain in India using the DEMATEL approach.” Journal of cleaner production199 (2018): 47-61.

Yang, Chen, Shulin Lan, and Ming-Lang Tseng. “Coordinated development path of metropolitan logistics and economy in Belt and Road using DEMATEL–Bayesian analysis.” International Journal of Logistics Research and Applications22, no. 1 (2019): 1-24.

Si, Sheng-Li, Xiao-Yue You, Hu-Chen Liu, and Jia Huang. “Identifying key performance indicators for holistic hospital management with a modified DEMATEL approach.” International journal of environmental research and public health14, no. 8 (2017): 934.

Kfita, Abdelaziz El, and Omar Drissi-Kaitouni. “A fuzzy revised-DEMATEL method to evaluate vehicles fleet maintenance management in uncertainty.” International Journal of Logistics Systems and Management28, no. 1 (2017): 59-83.

Sangaiah, Arun Kumar, Prabakar Rontala Subramaniam, and Xinliang Zheng. “A combined fuzzy DEMATEL and fuzzy TOPSIS approach for evaluating GSD project outcome factors.” Neural Computing and Applications26, no. 5 (2015): 1025-1040.

Singh, Charanjit, Davinder Singh, and J. S. Khamba. “Analyzing barriers of Green Lean practices in manufacturing industries by DEMATEL approach.” Journal of Manufacturing Technology Management(2020).

Nilashi, Mehrbakhsh, Sarminah Samad, Azizah Abdul Manaf, Hossein Ahmadi, Tarik A. Rashid, Asmaa Munshi, Wafa Almukadi, Othman Ibrahim, and Omed Hassan Ahmed. “Factors influencing medical tourism adoption in Malaysia: A DEMATEL-Fuzzy TOPSIS approach.” Computers & Industrial Engineering137 (2019): 106005.

Keskin, Gülşen Aydın. “Using integrated fuzzy DEMATEL and fuzzy C: means algorithm for supplier evaluation and selection.” International Journal of Production Research53, no. 12 (2015): 3586-3602.

Tzeng, Gwo-Hshiung, Cheng-Hsin Chiang, and Chung-Wei Li. “Evaluating intertwined effects in e-learning programs: A novel hybrid MCDM model based on factor analysis and DEMATEL.” Expert systems with Applications32, no. 4 (2007): 1028-1044.

Ashtarinezhad, Elahe, Amir Homayoon Sarfaraz, and Mehrzad Navabakhsh. “Supplier evaluation and categorize with combine Fuzzy Dematel and Fuzzy Inference System.” Data in brief18 (2018): 1149-1156.

Koca, Gozde, Ozum Egilmez, and Onur Akcakaya. “Evaluation of the smart city: Applying the dematel technique.” Telematics and Informatics62 (2021): 101625.

Mavi, Reza Kiani, and Craig Standing. “Critical success factors of sustainable project management in construction: A fuzzy DEMATEL-ANP approach.” Journal of cleaner production194 (2018): 751-765.

Razavi Toosi, S. L., and J. M. V. Samani. “Prioritizing watersheds using a novel hybrid decision model based on fuzzy DEMATEL, fuzzy ANP and fuzzy VIKOR.” Water Resources Management31, no. 9 (2017): 2853-2867.

Wu, Yunna, Mingjuan Liao, Mengyao Hu, Jiawei Lin, Jianli Zhou, Buyuan Zhang, and Chuanbo Xu. “A decision framework of low-speed wind farm projects in hilly areas based on DEMATEL-entropy-TODIM method from the sustainability perspective: a case in China.” Energy213 (2020): 119014.

Tsai, Wen-Hsien, and Wei Hsu. “A novel hybrid model based on DEMATEL and ANP for selecting cost of quality model development.” Total quality management21, no. 4 (2010): 439-456.

Dalvi-Esfahani, Mohammad, Ali Niknafs, Daria J. Kuss, Mehrbakhsh Nilashi, and Saeed Afrough. “Social media addiction: Applying the DEMATEL approach.” Telematics and Informatics43 (2019): 101250.

Mao, Shengzhong, Yuzhen Han, Yong Deng, and Danilo Pelusi. “A hybrid DEMATEL-FRACTAL method of handling dependent evidences.” Engineering Applications of Artificial Intelligence91 (2020): 103543.

Kumar, Anil, Mohamad Amin Kaviani, Ashkan Hafezalkotob, and Edmundas Kazimieras Zavadskas. “Evaluating innovation capabilities of real estate firms: a combined fuzzy Delphi and DEMATEL approach.” International Journal of Strategic Property Management21, no. 4 (2017): 401-416.

Chinnasami Sivaji, “The Development of Terminal Alkynes in Water Using DEMATEL Method”, Journal on Materials and its Characterization, 1(2), (2022):27-35.