ReP USP - Resultado da busca

Artigo de periodico
Influence of Al, Cr, Ga, or Zr as promoters on the performance of Cu/ZnO catalyst for CO2 hydrogenation to methanol (2022)
Santana, Cássia Sidney ; Rasteiro , Letícia Fernanda ; Marcos, Francielle Candian Firmino ; Assaf, Elisabete Moreira ; Gomes, Janaina Fernandes ; Assaf, Jose Mansur
Source: Molecular Catalysis. Unidade: IQSC
Subjects: CATÁLISE, HIDROGENAÇÃO, GÁS CARBÔNICO, METANOL
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ABNT
SANTANA, Cássia Sidney et al. Influence of Al, Cr, Ga, or Zr as promoters on the performance of Cu/ZnO catalyst for CO2 hydrogenation to methanol. Molecular Catalysis, v. 528, p. 112512, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2022.112512. Acesso em: 27 abr. 2024.
APA
Santana, C. S., Rasteiro , L. F., Marcos, F. C. F., Assaf, E. M., Gomes, J. F., & Assaf, J. M. (2022). Influence of Al, Cr, Ga, or Zr as promoters on the performance of Cu/ZnO catalyst for CO2 hydrogenation to methanol. Molecular Catalysis, 528, 112512. doi:10.1016/j.mcat.2022.112512
NLM
Santana CS, Rasteiro LF, Marcos FCF, Assaf EM, Gomes JF, Assaf JM. Influence of Al, Cr, Ga, or Zr as promoters on the performance of Cu/ZnO catalyst for CO2 hydrogenation to methanol [Internet]. Molecular Catalysis. 2022 ; 528 112512.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2022.112512
Vancouver
Santana CS, Rasteiro LF, Marcos FCF, Assaf EM, Gomes JF, Assaf JM. Influence of Al, Cr, Ga, or Zr as promoters on the performance of Cu/ZnO catalyst for CO2 hydrogenation to methanol [Internet]. Molecular Catalysis. 2022 ; 528 112512.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2022.112512
Artigo de periodico
Biocatalytic synthesis of lipophilic amides by the lipase of Candida antarctica type B (2022)
Lima, Rafaely Nascimento ; Anjos, Charlene Souza dos ; Porto, Andre Luiz Meleiro
Source: Molecular Catalysis. Unidade: IQSC
Subjects: ESTERIFICAÇÃO, AMIDAS, SÍNTESE ORGÂNICA
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ABNT
LIMA, Rafaely Nascimento e ANJOS, Charlene Souza dos e PORTO, Andre Luiz Meleiro. Biocatalytic synthesis of lipophilic amides by the lipase of Candida antarctica type B. Molecular Catalysis, v. 530, p. 112635, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2022.112635. Acesso em: 27 abr. 2024.
APA
Lima, R. N., Anjos, C. S. dos, & Porto, A. L. M. (2022). Biocatalytic synthesis of lipophilic amides by the lipase of Candida antarctica type B. Molecular Catalysis, 530, 112635. doi:10.1016/j.mcat.2022.112635
NLM
Lima RN, Anjos CS dos, Porto ALM. Biocatalytic synthesis of lipophilic amides by the lipase of Candida antarctica type B [Internet]. Molecular Catalysis. 2022 ;530 112635.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2022.112635
Vancouver
Lima RN, Anjos CS dos, Porto ALM. Biocatalytic synthesis of lipophilic amides by the lipase of Candida antarctica type B [Internet]. Molecular Catalysis. 2022 ;530 112635.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2022.112635
Artigo de periodico
Palladium-catalyzed sabinene oxidation with hydrogen peroxide: Smart fragrance production and DFT insights (2022)
Vieira, Camila Grossi ; Angnes, Ricardo Almir ; Braga, Ataualpa Albert Carmo ; Gusevskaya, Elena V; Rossi, Liane Marcia
Source: Molecular Catalysis. Unidade: IQ
Subjects: OXIDAÇÃO, PALÁDIO, PERÓXIDO DE HIDROGÊNIO
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ABNT
VIEIRA, Camila Grossi et al. Palladium-catalyzed sabinene oxidation with hydrogen peroxide: Smart fragrance production and DFT insights. Molecular Catalysis, v. 517, p. 1-8, 2022Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2021.112033. Acesso em: 27 abr. 2024.
APA
Vieira, C. G., Angnes, R. A., Braga, A. A. C., Gusevskaya, E. V., & Rossi, L. M. (2022). Palladium-catalyzed sabinene oxidation with hydrogen peroxide: Smart fragrance production and DFT insights. Molecular Catalysis, 517, 1-8. doi:10.1016/j.mcat.2021.112033
NLM
Vieira CG, Angnes RA, Braga AAC, Gusevskaya EV, Rossi LM. Palladium-catalyzed sabinene oxidation with hydrogen peroxide: Smart fragrance production and DFT insights [Internet]. Molecular Catalysis. 2022 ; 517 1-8.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.112033
Vancouver
Vieira CG, Angnes RA, Braga AAC, Gusevskaya EV, Rossi LM. Palladium-catalyzed sabinene oxidation with hydrogen peroxide: Smart fragrance production and DFT insights [Internet]. Molecular Catalysis. 2022 ; 517 1-8.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.112033
Artigo de periodico
Pd catalysts supported on different hydrophilic or hydrophobic carbonaceous substrate for furfural and 5-(hydroxymethyl)-furfural hydrogenation in water (2021)
Silva, Wesley Romário da ; Matsubara, Elaine Yoshiko; Rosolen, José Mauricio ; Donate, Paulo Marcos ; Gunnella, Roberto
Source: Molecular Catalysis. Unidade: FFCLRP
Subjects: NANOPARTÍCULAS, PALÁDIO, NANOTUBOS, CARBONO, CARVÃO VEGETAL, HIDROGENAÇÃO, ÁGUA
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ABNT
SILVA, Wesley Romário da et al. Pd catalysts supported on different hydrophilic or hydrophobic carbonaceous substrate for furfural and 5-(hydroxymethyl)-furfural hydrogenation in water. Molecular Catalysis, v. 504, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2021.111496. Acesso em: 27 abr. 2024.
APA
Silva, W. R. da, Matsubara, E. Y., Rosolen, J. M., Donate, P. M., & Gunnella, R. (2021). Pd catalysts supported on different hydrophilic or hydrophobic carbonaceous substrate for furfural and 5-(hydroxymethyl)-furfural hydrogenation in water. Molecular Catalysis, 504. doi:10.1016/j.mcat.2021.111496
NLM
Silva WR da, Matsubara EY, Rosolen JM, Donate PM, Gunnella R. Pd catalysts supported on different hydrophilic or hydrophobic carbonaceous substrate for furfural and 5-(hydroxymethyl)-furfural hydrogenation in water [Internet]. Molecular Catalysis. 2021 ; 504[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.111496
Vancouver
Silva WR da, Matsubara EY, Rosolen JM, Donate PM, Gunnella R. Pd catalysts supported on different hydrophilic or hydrophobic carbonaceous substrate for furfural and 5-(hydroxymethyl)-furfural hydrogenation in water [Internet]. Molecular Catalysis. 2021 ; 504[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.111496
Artigo de periodico
Stereoselective reduction of flavanones by marine-derived fungi (2021)
Matos, Iara Lisboa de ; Birolli, Willian G. ; Santos, Darlisson de A.; Nitschke, Marcia ; Porto, Andre Luiz Meleiro
Source: Molecular Catalysis. Unidade: IQSC
Subjects: FLAVONOIDES, FUNGOS, BIOTRANSFORMAÇÃO
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ABNT
MATOS, Iara Lisboa de et al. Stereoselective reduction of flavanones by marine-derived fungi. Molecular Catalysis, v. 513, p. 111734, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.biochi.2021.08.002. Acesso em: 27 abr. 2024.
APA
Matos, I. L. de, Birolli, W. G., Santos, D. de A., Nitschke, M., & Porto, A. L. M. (2021). Stereoselective reduction of flavanones by marine-derived fungi. Molecular Catalysis, 513, 111734. doi:10.1016/j.biochi.2021.08.002
NLM
Matos IL de, Birolli WG, Santos D de A, Nitschke M, Porto ALM. Stereoselective reduction of flavanones by marine-derived fungi [Internet]. Molecular Catalysis. 2021 ;513 111734.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.biochi.2021.08.002
Vancouver
Matos IL de, Birolli WG, Santos D de A, Nitschke M, Porto ALM. Stereoselective reduction of flavanones by marine-derived fungi [Internet]. Molecular Catalysis. 2021 ;513 111734.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.biochi.2021.08.002
Artigo de periodico
Surface Analyses of adsorbed and deposited species on the Ni-Mo catalysts surfaces after Guaiacol HDO. Influence of the alumina and SBA-15 supports (2021)
Lima, Rubens William dos Santos; Hewer, Thiago Lewis Reis ; Alves, Rita Maria de Brito ; Schmal, Martin
Source: Molecular Catalysis. Unidade: EP
Subjects: CATALISADORES, ALUMINA
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ABNT
LIMA, Rubens William dos Santos et al. Surface Analyses of adsorbed and deposited species on the Ni-Mo catalysts surfaces after Guaiacol HDO. Influence of the alumina and SBA-15 supports. Molecular Catalysis, v. 511, p. 1-10, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2021.111724. Acesso em: 27 abr. 2024.
APA
Lima, R. W. dos S., Hewer, T. L. R., Alves, R. M. de B., & Schmal, M. (2021). Surface Analyses of adsorbed and deposited species on the Ni-Mo catalysts surfaces after Guaiacol HDO. Influence of the alumina and SBA-15 supports. Molecular Catalysis, 511, 1-10. doi:10.1016/j.mcat.2021.111724
NLM
Lima RW dos S, Hewer TLR, Alves RM de B, Schmal M. Surface Analyses of adsorbed and deposited species on the Ni-Mo catalysts surfaces after Guaiacol HDO. Influence of the alumina and SBA-15 supports [Internet]. Molecular Catalysis. 2021 ;511 1-10.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.111724
Vancouver
Lima RW dos S, Hewer TLR, Alves RM de B, Schmal M. Surface Analyses of adsorbed and deposited species on the Ni-Mo catalysts surfaces after Guaiacol HDO. Influence of the alumina and SBA-15 supports [Internet]. Molecular Catalysis. 2021 ;511 1-10.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2021.111724
Artigo de periodico
Structural transformation of vanadate nanotubes into vanadate oxides nanostructures during the dry reforming of methane (2020)
Oton, Lais F.; Coelho, Davi C.; Oliveira, Alcineia C.; Araujo, Jesuina C.S. de; Lang, Rossano; Rodriguez-Castellon, Enrique; Rodríguez-Aguado, Elena; Lucrédio, Alessandra F; Assaf, Elisabete Moreira ; Reyna-Alvarado, Jorge; López-Galán, Oscar A.; Manuel Ramos
Source: Molecular Catalysis. Unidade: IQSC
Assunto: NANOTUBOS
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ABNT
OTON, Lais F. et al. Structural transformation of vanadate nanotubes into vanadate oxides nanostructures during the dry reforming of methane. Molecular Catalysis, v. 480, p. 110641, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2019.110641. Acesso em: 27 abr. 2024.
APA
Oton, L. F., Coelho, D. C., Oliveira, A. C., Araujo, J. C. S. de, Lang, R., Rodriguez-Castellon, E., et al. (2020). Structural transformation of vanadate nanotubes into vanadate oxides nanostructures during the dry reforming of methane. Molecular Catalysis, 480, 110641. doi:10.1016/j.mcat.2019.110641
NLM
Oton LF, Coelho DC, Oliveira AC, Araujo JCS de, Lang R, Rodriguez-Castellon E, Rodríguez-Aguado E, Lucrédio AF, Assaf EM, Reyna-Alvarado J, López-Galán OA, Manuel Ramos. Structural transformation of vanadate nanotubes into vanadate oxides nanostructures during the dry reforming of methane [Internet]. Molecular Catalysis. 2020 ; 480 110641.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2019.110641
Vancouver
Oton LF, Coelho DC, Oliveira AC, Araujo JCS de, Lang R, Rodriguez-Castellon E, Rodríguez-Aguado E, Lucrédio AF, Assaf EM, Reyna-Alvarado J, López-Galán OA, Manuel Ramos. Structural transformation of vanadate nanotubes into vanadate oxides nanostructures during the dry reforming of methane [Internet]. Molecular Catalysis. 2020 ; 480 110641.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2019.110641
Artigo de periodico
Biochar as supporting material for heterogeneous Mn(II) catalysts: Efficient olefins epoxidation with H2O2 (2020)
Pierri, Leticia de ; Gemenetzi, A; Mavrogiorgou, A; Regitano, Jussara Borges ; Deligiannakis, Y; Louloudi, M
Source: Molecular Catalysis. Unidade: ESALQ
Subjects: BIOCARVÃO, CATÁLISE, MANGANÊS, OXIDAÇÃO, PERÓXIDO DE HIDROGÊNIO
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ABNT
PIERRI, Leticia de et al. Biochar as supporting material for heterogeneous Mn(II) catalysts: Efficient olefins epoxidation with H2O2. Molecular Catalysis, v. 489, p. 1-11, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2020.110946. Acesso em: 27 abr. 2024.
APA
Pierri, L. de, Gemenetzi, A., Mavrogiorgou, A., Regitano, J. B., Deligiannakis, Y., & Louloudi, M. (2020). Biochar as supporting material for heterogeneous Mn(II) catalysts: Efficient olefins epoxidation with H2O2. Molecular Catalysis, 489, 1-11. doi:10.1016/j.mcat.2020.110946
NLM
Pierri L de, Gemenetzi A, Mavrogiorgou A, Regitano JB, Deligiannakis Y, Louloudi M. Biochar as supporting material for heterogeneous Mn(II) catalysts: Efficient olefins epoxidation with H2O2 [Internet]. Molecular Catalysis. 2020 ; 489 1-11.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2020.110946
Vancouver
Pierri L de, Gemenetzi A, Mavrogiorgou A, Regitano JB, Deligiannakis Y, Louloudi M. Biochar as supporting material for heterogeneous Mn(II) catalysts: Efficient olefins epoxidation with H2O2 [Internet]. Molecular Catalysis. 2020 ; 489 1-11.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2020.110946
Artigo de periodico
Versatility of Candida antarctica lipase in the amide bond formation applied in organic synthesis and biotechnological processes (2019)
Lima, Rafaely Nascimento; Anjos, Charlene Souza dos; Orozco, Erika Vanessa Meñaca; Porto, Andre Luiz Meleiro
Source: Molecular Catalysis. Unidade: IQSC
Subjects: QUÍMICA VERDE, LIPASE
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ABNT
LIMA, Rafaely Nascimento et al. Versatility of Candida antarctica lipase in the amide bond formation applied in organic synthesis and biotechnological processes. Molecular Catalysis, v. 466, n. Ja2019, p. 75-105, 2019Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2019.01.007. Acesso em: 27 abr. 2024.
APA
Lima, R. N., Anjos, C. S. dos, Orozco, E. V. M., & Porto, A. L. M. (2019). Versatility of Candida antarctica lipase in the amide bond formation applied in organic synthesis and biotechnological processes. Molecular Catalysis, 466( Ja2019), 75-105. doi:10.1016/j.mcat.2019.01.007
NLM
Lima RN, Anjos CS dos, Orozco EVM, Porto ALM. Versatility of Candida antarctica lipase in the amide bond formation applied in organic synthesis and biotechnological processes [Internet]. Molecular Catalysis. 2019 ; 466( Ja2019): 75-105.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2019.01.007
Vancouver
Lima RN, Anjos CS dos, Orozco EVM, Porto ALM. Versatility of Candida antarctica lipase in the amide bond formation applied in organic synthesis and biotechnological processes [Internet]. Molecular Catalysis. 2019 ; 466( Ja2019): 75-105.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2019.01.007
Artigo de periodico
CuFe and CuCo supported on pillared clay as catalysts for CO2 hydrogenation into value-added products in one-step (2018)
Marcos, Francielle Candian Firmino ; Assaf, Jose Mansur ; Assaf, Elisabete Moreira
Source: Molecular Catalysis. Unidades: IQSC, EP
Subjects: CATÁLISE, CATALISADORES
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ABNT
MARCOS, Francielle Candian Firmino e ASSAF, Jose Mansur e ASSAF, Elisabete Moreira. CuFe and CuCo supported on pillared clay as catalysts for CO2 hydrogenation into value-added products in one-step. Molecular Catalysis, v. 458, p. 297-306, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2017.12.025. Acesso em: 27 abr. 2024.
APA
Marcos, F. C. F., Assaf, J. M., & Assaf, E. M. (2018). CuFe and CuCo supported on pillared clay as catalysts for CO2 hydrogenation into value-added products in one-step. Molecular Catalysis, 458, 297-306. doi:10.1016/j.mcat.2017.12.025
NLM
Marcos FCF, Assaf JM, Assaf EM. CuFe and CuCo supported on pillared clay as catalysts for CO2 hydrogenation into value-added products in one-step [Internet]. Molecular Catalysis. 2018 ; 458 297-306.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2017.12.025
Vancouver
Marcos FCF, Assaf JM, Assaf EM. CuFe and CuCo supported on pillared clay as catalysts for CO2 hydrogenation into value-added products in one-step [Internet]. Molecular Catalysis. 2018 ; 458 297-306.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2017.12.025
Artigo de periodico
Accessible ring opening metathesis and atom transfer radical polymerization catalysts based on dimethyl sulfoxide ruthenium(II) complexes bearing Nheterocyclic carbene ligands (2018)
Idehara, André H. S.; Gois, Patrik D. S.; Fernandez, Henrique; Goi, Beatriz Eleutério; Machado, Antonio Eduardo da Hora; Lima Neto, Benedito dos Santos ; Carvalho Junior, Valdemiro Pereira de
Source: Molecular Catalysis. Unidade: IQSC
Assunto: RUTÊNIO
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ABNT
IDEHARA, André H. S. et al. Accessible ring opening metathesis and atom transfer radical polymerization catalysts based on dimethyl sulfoxide ruthenium(II) complexes bearing Nheterocyclic carbene ligands. Molecular Catalysis, v. 448, p. 135-143, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.mcat.2018.01.032. Acesso em: 27 abr. 2024.
APA
Idehara, A. H. S., Gois, P. D. S., Fernandez, H., Goi, B. E., Machado, A. E. da H., Lima Neto, B. dos S., & Carvalho Junior, V. P. de. (2018). Accessible ring opening metathesis and atom transfer radical polymerization catalysts based on dimethyl sulfoxide ruthenium(II) complexes bearing Nheterocyclic carbene ligands. Molecular Catalysis, 448, 135-143. doi:10.1016/j.mcat.2018.01.032
NLM
Idehara AHS, Gois PDS, Fernandez H, Goi BE, Machado AE da H, Lima Neto B dos S, Carvalho Junior VP de. Accessible ring opening metathesis and atom transfer radical polymerization catalysts based on dimethyl sulfoxide ruthenium(II) complexes bearing Nheterocyclic carbene ligands [Internet]. Molecular Catalysis. 2018 ; 448 135-143.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2018.01.032
Vancouver
Idehara AHS, Gois PDS, Fernandez H, Goi BE, Machado AE da H, Lima Neto B dos S, Carvalho Junior VP de. Accessible ring opening metathesis and atom transfer radical polymerization catalysts based on dimethyl sulfoxide ruthenium(II) complexes bearing Nheterocyclic carbene ligands [Internet]. Molecular Catalysis. 2018 ; 448 135-143.[citado 2024 abr. 27 ] Available from: https://doi.org/10.1016/j.mcat.2018.01.032

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