Chemical characterizations of cork-containing tree barks, thermochemical treatments of biomass, bark extractives and adsorption.


A cortiça como biossorvente natural para cinco pesticidas selecionados em amostra de água
A cortiça como biossorvente natural para cinco pesticidas selecionados em amostra de água
O presente estudo avaliou a eficiência da adsorção de cinco pesticidas (atrazina, fluazifop-P-butil, lactofen, lambda-cialotrina … Ler mais


Artigos Científicos (ISI)

Esteves B., Şen U., Pereira H. (2023)

Influence of chemical composition on heating value of biomass: A review and bibliometric analysis

Energies , 16(10): 4226. DOI:

Lakreb N., Sen U., Toussaint E., Anziane S., Djakab E., Pereira H. (2023)

Physical properties and thermal conductivity of cork-based sandwich panels for building

Construction and Building Materials, 368: 130420. DOI:

Şen A. U., Simões R., Yücedağ C., Miranda I., Fernandes Â., Pereira H. (2023)

Biochemical characterization and fuel properties of endemic Taurus flowering ash (Fraxinus ornus subsp. cilicica) bark from Turkey

Processes, 11(9):2774. DOI:

Şen A.U., Esteves B., Lemos F., Pereira H. (2023)

Insights into the combustion behavior of cork and phloem: effect of chemical components and biomass morphology

European Journal of Wood and Wood Products, 81: 999-1010. DOI:

Şen U., Esteves B., Pereira H. (2023)

Pyrolysis and extraction of bark in a biorefineries context: A critical review

Energies, 16(13): 4848. DOI:

Şen U., Longo A., Gonçalves M., Miranda I., Pereira H. (2023)

The potential of waste phloem fraction of Quercus cerris bark in biochar production

Environments, 10: 71. DOI:

Sen U., Martins M., Santos E., Lemos M.A., Lemos F., Pereira H. (2023)

Slow pyrolysis of Quercus cerris cork: characterization of biochars and pyrolysis volatiles

Environments, 10(1): 4. DOI:

Şen U., Viegas C., Duarte M.P., Maurício E.M., Nobre C., Correia R., Pereira H., Gonçalves M. (2023)

Maceration of waste cork in binary hydrophilic solvents for the production of functional extracts

Environments, 10(8): 142. DOI:

Lakreb N., Şen U., Beddiar A., Zitoune R., Nobre C., Gomes M.G., Pereira H. (2022)

Properties of eco-friendly mortars produced by partial cement replacement with waste cork particles: a feasibility study

Biomass Conversion and Biorefinery. DOI:

Lakreb N., Sen U., Bezzazi B., Pereira H. (2022)

The physicomechanical and thermal properties of Algerian Aleppo pine (Pinus halepensis) wood as a component of sandwich panels

IForest, 15 (2): 106-111. DOI:

Longo A., Nobre C., Sen A., Panizio R., Brito P., Gonçalves M. (2022)

Torrefaction upgrading of heterogenous wastes containing cork and chlorinated polymers.

Environments, 9: 99. DOI:

Şen A.U., Correia R., Longo A., Nobre C., Alves O., Santos M., Gonçalves M., Miranda I., Pereira H. (2022)

Chemical composition, morphology, antioxidant, and fuel properties of pine nut shells within a biorefinery perspective

Biomass Conversion and Biorefinery. DOI:

Şen A.U., Fonseca F.G., Funke A., Pereira H., Lemos F. (2022)

Pyrolysis kinetics and estimation of chemical composition of Quercus cerris cork

Biomass Conversion and Biorefinery, 12(11): 4835-4845. DOI:

Şen A.U., Nobre C., Durão L., Miranda I., Pereira H., Gonçalves M. (2022)

Low-temperature biochars from cork-rich and phloem-rich wastes: fuel, leaching, and methylene blue adsorption properties

Biomass Conversion and Biorefinery, 12(9): 3899–3909. DOI:

Şen U., Pereira H. (2022)

Pyrolysis behavior of alternative cork species

Journal of Thermal Analysis and Calorimetry, 147(6): 4017–4025. DOI:

Nobre C., Alves O., Durão L., Sen A., Vilarinho C., Goncalves M. (2021)

Characterization of hydrochar and process water from the hydrothermal carbonization of Refuse Derived Fuel

Waste Management, 120: 303-313. DOI:

Nobre C., Sen A., Durão L., Miranda I., Pereira H., Goncalves M. (2021)

Low-temperature pyrolysis products of waste cork and lignocellulosic biomass: product characterization

Biomass Conversion and Biorefinery, 112115. DOI:

Şen A.U., Pereira H. (2021)

State-of-the-art char production with a focus on bark feedstocks: processes, design, and applications

Processes, 9(1): 87. DOI:

Şen U., Pereira H. (2021)

Pyrolysis behavior of alternative cork species

Journal of Thermal Analysis and Calorimetry, 147: 4017–4025. DOI:

Domingos I., Ayata U., Ferreira J., Cruz-Lopes L., Sen A., Sahin S., Esteves B. (2020)

Calorific power improvement of wood by heat treatment and its relation to chemical composition

Energies, 13(20): 5322. DOI:

Melo M.M.R., Vieira P.G., Sen A., Pereira H., Portugal I., Silva C.M. (2020)

Optimization of the supercritical fluid extraction of Quercus cerris cork towards extraction yield and selectivity to friedelin

Separation and Purification Technology, 238: 116395. DOI:

Sen A., Miranda I., Esteves B., Pereira H. (2020)

Chemical characterization, bioactive and fuel properties of waste cork and phloem fractions from Quercus cerris L. bark

Industrial Crops and Products, 157: 112909. DOI:

Vieira P.G; Melo M.M.R., Sen A., Simões M.M.Q., Portugal I., Pereira H., Silva C.M. (2020)

Quercus cerris extracts obtained by distinct separation methods and solvents: Total and friedelin extraction yields, and chemical similarity analysis by multidimensional scaling

Separation and Purification Technology, 232: 115924. DOI:

de Aguiar T.R.Jr., Guimarães Neto J.O.A., Şen U., Pereira H. (2019)

Study of two cork species as natural biosorbents for five selected pesticides in water

Heliyon, 5(1): e01189. DOI:

Lakreb N., As N., Gorgun V., Sen U., Gomes M.G., Pereira H. (2018)

Production and characterization of particleboards from cork-rich Quercus cerris bark

European Journal of Wood and Wood Products, 76 (3): 989-997. DOI: https://10.1007/s00107-017-1284-6

Şen A., Miranda I., Ferreira J., Lourenço A., Pereira H. (2018)

Chemical composition and cellular structure of ponytail palm (Beaucarnea recurvata) cork

Industrial Crops and Products, 124(15): 845-855. URL:

Defoirdt N., Sen A., Dhaene J., De Mil T., Pereira H., Van Acker J., Van den Bulcke J. (2017)

A generic platform for hyperspectral mapping of wood

Wood Science and Technology, 51(4):887-907. DOI:

Melo M.M.R., Sen A., Silvestre A.J. D., Pereira H., Silva C.M. (2017)

Experimental and modeling study of supercritical CO2 extraction of Quercus cerris cork: influence of ethanol and particle size on extraction kinetics and selectivity to friedelin

Separation and Purification Technology, 187: 34-45.

Ferreira J.P.A., Miranda I., Sen A., Pereira H. (2016)

Chemical and cellular features of virgin and reproduction cork from Quercus variabilis

Industrial Crops and Products, 94(2016): 638-648.

Sen A., Leite C., Lima L., Lopes P., Pereira H. (2016)

Industrial valorization of Quercus cerris bark: pilot scale fractionation

Industrial Crops and Products, 92:42–49.

Sen A., Zhianski M., Glushkova M., Petkova K., Ferreira J., Pereira H. (2016)

Chemical composition and cellular structure of corks from Quercus suber trees planted in Bulgaria and Turkey

Wood Science and Technology, 50:1261–1276.

Sen A., Melo M.M.R., Silvestre A.J.D., Pereira H. (2015)

Prospective pathway for a green and enhanced friedelin production through supercritical fluid extraction of Quercus cerris cork

Journal of Supercritical Fluids, 97:247-255.

Sen A., Pereira H., Olivella M-A., Villaescusa I. (2015)

Heavy metals removal in aqueous environments using barkas a biosorbent

International Journal of Environmental Science and Technology, 12:391-404.

Sen A., Van den Bulcke J., Defroidt N., Acker J.V., Pereira H. (2014)

Thermal behaviour of cork and cork componentes

Thermochimica Acta, 582: 94-100.

Şen A., Miranda I., Pereira H. (2012)

Temperature-induced structural and chemical changes in cork from Quercus cerris

Industrial Crops and Products, 37(1): 508-513.

Şen A., Olivella M.A., Fiol N., Miranda I., Villaescusa I., Pereira H (2012)

Removal of chromium (VI) in aqueous environments using cork and heat treated cork samples from Quercus cerris and Quercus suber

Bioresources, 7(4): 4843-4857.

Şen A., Velez-Marques A., Gominho J., Pereira H. (2012)

Study of thermochemical treatments of cork in the 150-400 degrees C range using colour analysis and FTIR spectroscopy

Industrial Crops and Products, 38: 132-138.

Olivella M.A., Jove P., Sen A., Pereira H., Villaescusa I., Fiol N. (2011)

Sorption performance of Quercus cerris cork with polycyclic aromatic hydrocarbons and toxicity testing

BioResources, 6(3): 3363-3375.

Sen A., Quilhó T, Pereira H. (2011)

The cellular structure of cork in the bark of Quercus cerris var. cerris in a materials’ perspective

Industrial Crops and Products, 34(1): 929-936.

Sen A., Quilhó T., Pereira H. (2011)

Bark anatomy of Quercus cerris L. var. cerris from Turkey

Turkish Journal of Botany, 35(1):45-55.

Sen A., Miranda I., Santos S., Graça J., Pereira H. (2010)

The chemical composition of cork and phloem in the rhytidome of Quercus cerris bark

Industrial Crops and Products, 31: 417-422.

Nenhum livro encontrado.
Capítulos de Livros

Sen, A., Pereira, H. (2015)

Evaluation of cork as a natural sorbent for oil spill treatments

In: Waster: Solutions, Treatments and Opportunities. Vilarinho, Castro & Russo Eds, Taylors & Francis Group, London.. ISBN: 978-1-138-02882-1


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