{\rtf1\ansi\deff0\deftab360 {\fonttbl {\f0\fswiss\fcharset0 Arial} {\f1\froman\fcharset0 Times New Roman} {\f2\fswiss\fcharset0 Verdana} {\f3\froman\fcharset2 Symbol} } {\colortbl; \red0\green0\blue0; } {\info {\author Biblio 7.x}{\operator }{\title Biblio RTF Export}} \f1\fs24 \paperw11907\paperh16839 \pgncont\pgndec\pgnstarts1\pgnrestart S. D. Nale, ?Manganese incorporated on glucose as an efficient catalyst for the synthesis of adipic acid using molecular O2 in aqueous medium?, Applied Catalysis A: General, vol. 546, pp. 122-125, 2017.\par \par D. Vernekar, Dayyan, M., Ratha, S., ,, M. Haider, A., Khan, T. Suvra, and Jagadeesan, D., ?Direct oxidation of cyclohexane to adipic acid by a WFeCoO(OH) catalyst: role of bronsted acidity and oxygen vacancies?, ACS Catalysis, vol. 11, no. 17, pp. 10754-10766, 2021.\par \par S. Prasad Mekala, Prabu, M., Gawali, S. Datta, Gopakumar, K., Gogoi, P., Bhatkar, A. Ravindra, Mohapatra, G., Unnikrishanan, E., and Raja, T., ?Green synthesis of cyclohexanone to adipic acid over Fe-W oxides incorporated mesoporous carbon support?, Catalysis Communications, vol. 168, p. 106466, 2022.\par \par M. Prabu, Manikandan, M., Samal, P. Paramita, Gurrala, L. Prasad, Mekala, S. Prasad, Archana, R., Nayak, C., Bhattacharyya, D., Jha, S. N., Krishnamurty, S., and Raja, T., ?MnXWO4 nanostructure-based catalysts for single-step oxidation of cyclohexane and methane to oxygenates?, ACS Applied Nano Materials, vol. 6, no. 9, pp. 7245-7258, 2023.\par \par M. Prabu, Sharma, S., Raja, A., Archana, R., Samruddhi, M., and Raja, T., ?Nitric acid free cyclohexane to adipic acid production using nickel and vanadium incorporated AlPO-5 molecular sieve?, Molecular Catalysis, vol. 540, p. 113051, 2023.\par \par R. Kumar Jha, Manikandan, M., Prabu, M., Vineeth, N. R., Dharmalingam, P., Archana, R., Harsha, M., Shankar, S. Ram, Bhatte, K., and Raja, T., ?Temperature-controlled hydrothermal synthesis of ?-MnO2 nanorods for catalytic oxidation of cyclohexanone?, CHEMPLUSCHEM, vol. 89, 2024.\par \par }