Mohamed A. El Hamd, Marzough Aziz Albalawi, Hassanien Gomaa, Bassam Shaaban Mohammad, Rady F. Abdul-Kareem, Reem H. Obaydo, Wejdan T. Alsaggaf, Safaa F. Saleh, Manal A. Alossaimi & Mohamed A. Abdel-Lateef. (2023) Ziziphus spina-christi Leaf-Derived Carbon Dots as a Fluorescence Nanosensor to Evaluate Rifaximin Antibacterial via Inner Filter Effect: Greenness and Whiteness Studies. Chemosensors 11:5, pages 275.
Crossref
Leonardo Ciaccheri, Barbara Adinolfi, Andrea A. Mencaglia & Anna G. Mignani. 2023. Sensors and Microsystems. Sensors and Microsystems
111
120
.
Alice P. Holkem, Mônica Voss, Sandra K. Schlesner, Gilson A. Helfer, Adilson B. Costa, Juliano S. Barin, Edson I. Müller & Paola A. Mello. (2021) A green and high throughput method for salt determination in crude oil using digital image-based colorimetry in a portable device. Fuel 289, pages 119941.
Crossref
Douglas E. Raynie. 2020. Challenges in Green Analytical Chemistry. Challenges in Green Analytical Chemistry
92
113
.
Aleksandra Kurowska-Susdorf, Marcin Zwierżdżyński, Anita Martinović Bevanda, Stanislava Talić, Anita Ivanković & Justyna Płotka-Wasylka. (2019) Green analytical chemistry: Social dimension and teaching. TrAC Trends in Analytical Chemistry 111, pages 185-196.
Crossref
Paul T. AnastasDavid J.C. Constable. 2010. Handbook of Green Chemistry. Handbook of Green Chemistry
1
28
.
Hanieh Montaseri & Patricia B.C. Forbes. (2016) A review of monitoring methods for triclosan and its occurrence in aquatic environments. TrAC Trends in Analytical Chemistry 85, pages 221-231.
Crossref
A. G. Mignani, L. Ciaccheri, A. A. Mencaglia, A. De Girolamo, V. Lippolis & M. Pascale. Rapid screening of wheat bran contaminated by deoxynivalenol mycotoxin using Raman spectroscopy: a preliminary experiment. Rapid screening of wheat bran contaminated by deoxynivalenol mycotoxin using Raman spectroscopy: a preliminary experiment.
B. Gordillo Arrobas, L. Ciaccheri, A. A. Mencaglia, F. J. Rodriguez-Pulido, C. Stinco, M. L. Gonzalez-Miret, F. J. Heredia & A. G. Mignani. (2015) Raman spectroscopy for analyzing anthocyanins of lyophilized blueberries. Raman spectroscopy for analyzing anthocyanins of lyophilized blueberries.
Agnieszka Gałuszka, Zdzisław Migaszewski & Jacek Namieśnik. (2013) The 12 principles of green analytical chemistry and the SIGNIFICANCE mnemonic of green analytical practices. TrAC Trends in Analytical Chemistry 50, pages 78-84.
Crossref
Anna Grazia Mignani, Leonardo Ciaccheri, Andrea Azelio Mencaglia, Heidi Ottevaere, Edgar Eugenio Samano Báca & Hugo Thienpont. (2013) Optical measurements and pattern-recognition techniques for identifying the characteristics of beer and distinguishing Belgian beers. Sensors and Actuators B: Chemical 179, pages 140-149.
Crossref
Suparna Dutta & Arabinda K. Das. 2012. Handbook of Green Analytical Chemistry. Handbook of Green Analytical Chemistry
31
53
.
Ricardo Erthal Santelli, Marcos Almeida Bezerra, Julio Carlos Afonso, Maria de Fátima Batista de Carvalho, Eliane Padua Oliveira & Aline Soares Freire. 2012. Handbook of Green Analytical Chemistry. Handbook of Green Analytical Chemistry
475
503
.
Miguel de la Guardia & Salvador Garrigues. 2012. Handbook of Green Analytical Chemistry. Handbook of Green Analytical Chemistry
17
30
.
Antonio Molina‐Díaz, Juan Francisco García‐Reyes & Natividad Ramos‐Martos. 2012. Handbook of Green Analytical Chemistry. Handbook of Green Analytical Chemistry
221
244
.
Jennifer L. Young & Douglas E. Raynie. 2011. Challenges in Green Analytical Chemistry. Challenges in Green Analytical Chemistry
44
62
.
M. de la Guardia & S. Armenta. 2011. Green Analytical Chemistry. Green Analytical Chemistry
207
218
.
M. de la Guardia & S. Armenta. 2011. Green Analytical Chemistry. Green Analytical Chemistry
1
23
.