ورود
مقالات فارسیISIکنفرانسهاژورنالها

Harnessing Nanocatalysts for Sustainable Chemical Processes: Innovations in Green Chemistry

Publish place: Asian Journal of Green Chmistry، Vol: 9، Issue: 1
Publish Year: 1404
نوع سند: مقاله ژورنالی
زبان: English
View: 137

This Paper With 26 Page And PDF Format Ready To Download

  • Certificate
  • من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:
https://civilica.com/doc/2122489

شناسه ملی سند علمی:

JR_AJGC-9-1_005

تاریخ نمایه سازی: 6 آذر 1403

Abstract:

Nanocatalysts are at the forefront of revolutionizing green chemistry by enhancing the efficiency, selectivity, and sustainability of chemical processes. This study explores the fundamentals of nanocatalysts, their characterization techniques, and their pivotal role in promoting environmentally friendly chemical reactions. Key applications in environmental remediation, renewable energy, and sustainable industrial processes underscore their versatility and impact. Innovations in emerging materials, such as two-dimensional nanomaterials, metal-organic frameworks, high-entropy alloys, and single-atom catalysts, are pushing the boundaries of catalytic performance. The document also addresses challenges related to technical, economic, and environmental aspects, proposing solutions like cost-effective production methods, improved safety protocols, and regulatory updates. The importance of robust policy and regulatory frameworks is emphasized to ensure the safe and responsible development of nanocatalysts. Looking ahead, advancements in material science, integration with emerging technologies, enhanced sustainability practices, broader applications, strengthened regulatory frameworks, public and industry engagement, and interdisciplinary collaboration will shape the future of nanocatalysts in green chemistry. This comprehensive overview highlights the transformative potential of nanocatalysts in creating sustainable and impactful chemical processes, contributing to a greener and more sustainable world.

Keywords:

Nanocatalysts , Green chemistry , Sustainable chemical processes , Environmental remediation , Renewable Energy

Authors

Marianna Kashezheva

Department of Therapy, Faculty of Medicine, Stavropol State Medical University, Stavropol, Russia

Rumina Kedakhezheva

Department of Therapy, Faculty of Medicine, Stavropol State Medical University, Stavropol, Russia

Vitaly Morozov

Scientific Department, Saints Petersburg State Agrarian University, Saints Petersburg, Russia

Roman Kolesnikov

Scientific Department, Saints Petersburg State Agrarian University, Saints Petersburg, Russia

Vladimir Voropaev

Scientific Department, Saints Petersburg State Agrarian University, Saints Petersburg, Russia

Sergey Mezentsev

Department of Social Sciences and Humanities and Technologies, National Research Moscow State University of Civil Engineering, Moscow, Russia

Elena Vasilenko

Department of Chemical Technology, Machinery and Apparatus of Chemical Production, NTI (branch) of North-Caucasus Federal University

Elena Vernigorova

Department of Chemical Technology, Machinery and Apparatus of Chemical Production, NTI (branch) of North-Caucasus Federal University

Olga Kuchuk

Department of Chemical Technology, Machinery and Apparatus of Chemical Production, NTI (branch) of North-Caucasus Federal University

Alexander Simonov

Basic Department of Epizootology and Microbiology, Stavropol State Agrarian University, Stavropol, Russia

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
  • . Cruz-Martínez H., Guerra-Cabrera W., Flores-Rojas E., Ruiz-Villalobos D., Rojas-Chávez ...
  • . a) Baghernejad B., Hojjati T.S.M. Aqueous media preparation of ...
  • b) Gaikwad D.N., Gaikwad S.T., Manjul R.K., Rajbhoj A.S., Suryavanshi ...
  • . Sarathi R., Devi L.R., Sheeba N., Esakki E.S., Sundar ...
  • b) Mohamed Y.M.A., Attia Y.A., Nazer H.A.E., Solum E.J. An ...
  • . Mejía Y.R., Bogireddy N.K.R. Reduction of ۴-nitrophenol using green-fabricated ...
  • . Karczmarska A., Adamek M., El Houbbadi S., Kowalczyk P., ...
  • . Safavi A., Tohidi M. Microwave-assisted synthesis of gold, silver, ...
  • . a) Alinezhad H., Amiri P.H.T., Tavakkoli S.M., Muhiebes R.M., ...
  • b) Roy A., Elzaki A., Tirth V., Kajoak S., Osman ...
  • . Rezaee M., Kazemeini M., Fattahi M., Rashidi A.M., Vafajoo ...
  • . Talkhoncheh S.K., Haghighi M., Minaei S., Ajamein H., Abdollahifar ...
  • . a) Ghasemi S., Badri F., Rahbar K.H. Pd catalyst ...
  • b) Sharma R.K., Dutta S., Sharma S., Zboril R., Varma ...
  • . a) Radhi O.A., Shiri L. Synthesis, characterization, and application ...
  • b) Rashid H.U., Yu K., Umar M.N., Anjum M.N., Khan ...
  • . Sabzi M., Mousavi Anijdan S., Shamsodin M., Farzam M., ...
  • . Manawi Y.M., Ihsanullah, Samara A., Al-Ansari T., Atieh M.A. ...
  • . Frank O., Kalbac M. Chemical vapor deposition (CVD) growth ...
  • . Keshtiban M.M., Nikoo A., Massoumi B. Nano MgCuAl ۲ ...
  • . Sajjadi S.M., Haghighi M., Eslami A.A., Rahmani F. Hydrogen ...
  • . Rad S.J.H., Haghighi M., Eslami A.A., Rahmani F., Rahemi ...
  • . Marqueses-Rodríguez J., Manzorro R., Grzonka J., Jiménez-Benítez A.J., Gontard ...
  • . Da Y., Li X., Zhong C., Deng Y., Han ...
  • . Kuila D., Nagineni V., Zhao S., Indukuri H., Liang ...
  • . Fierascu R.C., Ortan A., Avramescu S.M., Fierascu I. Phyto-nanocatalysts: ...
  • . Zhou J., Wei N., Zhang D., Wang Y., Li ...
  • . Kim K.H., Xing H., Zuo J.M., Zhang P., Wang ...
  • . Guo Y., Gonzalez S., Guadalupe A.R., Transmission electron microscopy ...
  • . Bondarenko G., Kulikova M., Khazradzhi A.K.A., Dement’eva O., Ivantsov ...
  • . Glaser J.A. Green chemistry with nanocatalysts. Clean Technologies and ...
  • . Bugnikova Y.H. Group VIII base metal nanocatalysts with encapsulated ...
  • . Navia-Mendoza J.M., Filho O.A.E., Zambrano-Intriago L.A., Maddela N.R., Duarte ...
  • . Verma V., Joshi A., Kalra S., Singh A., Mohan ...
  • . Yang Y. Towards a more sustainable chemical process industry: ...
  • . Reina A., Dang-Bao T., Guerrero-Ríos I., Gómez M. Palladium ...
  • . Mollazehi F. Catalytic nanoparticles and magnetic nanocatalysts in organic ...
  • . Ćwieka K., Czelej K., Colmenares J.C., Jabłczyńska K., Werner ...
  • . Zelekew O.A., Haitosa H.H., Chen X., Wu Y.N. Recent ...
  • . Ramaraj B.R., Mahalingam U., Ramasamy P., Pearce J.M., Mayandi ...
  • . Naseem K., Aziz A., Tahir M., Ameen A., Ahmad ...
  • . Nguyen V.H., Vo D.V.N. Editorial for the special issue ...
  • . Giannakoudakis D.A., Zormpa F.F., Margellou A.G., Qayyum A., Colmenares-Quintero ...
  • . Singh S., Kumar V., Datta S., Bhatia D., Dhaka ...
  • . Mushtaq F. Clean energy activated micro-and nanocatalysts towards environmental ...
  • . Likodimos V., Dionysiou D.D., Falaras P. Clean water: water ...
  • . Masood Z., Ikhlaq A., Akram A., Qazi U.Y., Rizvi ...
  • . Singh R., Dutta S. Current approaches of nanotechnology for ...
  • . Kim K.J., Ahn H.G. Bimetallic Pt–Au nanocatalysts on ZnO/Al۲O۳/monolith ...
  • . Lozano L.A., Faroldi B.M., Ulla M.A., Zamaro J.M. Metal–organic ...
  • . Lu H.H., Lu M.C., Le T.C., An Z., Pui ...
  • . Wu Y., Xu Z., Liu S., Tang M., Lu ...
  • . Zhai Y., Liu X., Han J., Zou Y., Huang ...
  • . Luo M., Yang Y., Guo S. Precious metal nanocrystals ...
  • . Ingle A.P., Chandel A.K., Philippini R., Martiniano S.E., da ...
  • . Wang Y., Shi H., Zhao D., Zhang D., Yan ...
  • . Ahmadi M.H., Ghazvini M., Alhuyi Nazari M., Ahmadi M.A., ...
  • . Yang G., Hu Q., Hu J., Yang H., Yan ...
  • . Yang W., Zhao J., Tian H., Wang L., Wang ...
  • . Zeng J., Yu X., Xuan Y., Li Q., Liu ...
  • . Gohain P., Paul S. Transition metal oxide nanoparticles for ...
  • . Joy N., M A., V H., Raj M R.R., ...
  • . Awogbemi O., Ojo A.A., Adeleye S.A. Advancements in the ...
  • . Wu Y., Xia C., Cao J., Garalleh H.A., Garaleh ...
  • . Akia M., Khalife E., Tabatabaei M. An overview of ...
  • . a) Khazaei R., Khazaei A., Nasrollahzadeh M. Horsetail assisted ...
  • b) Alshorifi F.T., El Dafrawy S.M., Ahmed A.I. Fe/Co-MOF nanocatalysts: ...
  • . Amigun A.T., Adekola F.A., Tijani J.O., Mustapha S. Photocatalytic ...
  • . Kravtsov A.A., Blinov A.V., Nagdalian A.A., Gvozdenko A.A., Golik ...
  • . Gang Y., Pellessier J., Du Z., Fang S., Fang ...
  • . Blinova A.A., Karamirzoev A.A., Guseynova A.R., Maglakelidze D.G., Ilyaeva ...
  • . Blinov A.V., Maglakelidze D.G., Rekhman Z.A., Yasnaya M.A., Gvozdenko ...
  • . Li M., Wang J., Cong X., Sun Y., Liu ...
  • . Kim Y.E., Ko Y.N., An B.S., Hong J., Jeon ...
  • . Ma C., Wang Z., Li J., Mu M., Yin ...
  • . Meng J., Miao Z., Zhang J., Wang Z., Zhang ...
  • . Blinov A.V., Nagdalian A.A., Gvozdenko A.A., Blinova A.A., Maglakelidze ...
  • . Jang W., Yun J., Ludwig L., Jang S.G., Bae ...
  • . Wongyai K., Wintachai P., Maungchang R., Rattanakit P. Exploration ...
  • . Chen M., Kang H., Gong Y., Guo J., Zhang ...
  • . Yadav V.K., Amari A., Gacem A., Elboughdiri N., Eltayeb ...
  • . Demirel İ.T., Akar B., Baltacı C., Karpuz Ö., Gülbahar ...
  • . Zulfiqar R., Zulfiqar H., Aslam S., Qazafi S., Muhammad ...
  • . Jabbar K.Q., Barzinjy A.A., Hamad S.M. Iron oxide nanoparticles: ...
  • . Keshta B.E., Gemeay A.H., Sinha D.K., Elsharkawy S., Hassan ...
  • . Chen Z. Computational quest for high-performance single-atom catalysts for ...
  • . Dhiman M. Plasmonic nanocatalysis for solar energy harvesting and ...
  • . Wang Q., Astruc D. State of the art and ...
  • . Albonetti S., Mazzoni R., Cavani F. CHAPTER ۱: Homogeneous, ...
    • نمایش کامل مراجع