Adsorption (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Adsorption" in English language version.

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acs.org

pubs.acs.org

Yi, Honghong (April 2015). "Effect of the Adsorbent Pore Structure on the Separation of Carbon Dioxide and Methane Gas Mixtures". Journal of Chemical & Engineering Data. 60 (5): 1388–1395. doi:10.1021/je501109q. Retrieved 21 April 2023.

arhse.com

Guruge, Amila Ruwan (2021-02-17). "Absorption Vs Adsorption". Chemical and Process Engineering. Retrieved 2023-11-26.

arstechnica.com

Ford, Matt (6 May 2009). "The thermodynamics of Tetris". Ars Technica.

arxiv.org

Assadi, M. Hussein N.; Hanaor, Dorian A H (June 2016). "The effects of copper doping on photocatalytic activity at (101) planes of anatase TiO2: A theoretical study". Applied Surface Science. 387 (387): 682–689. arXiv:1811.09157. Bibcode:2016ApSS..387..682A. doi:10.1016/j.apsusc.2016.06.178. S2CID 99834042.

books.google.com

Kayser, Heinrich (1881). "Über die Verdichtung von Gasen an Oberflächen in ihrer Abhängigkeit von Druck und Temperatur". Annalen der Physik und Chemie. 248 (4): 526–537. Bibcode:1881AnP...248..526K. doi:10.1002/andp.18812480404.. In this study of the adsorption of gases by charcoal, the first use of the word "adsorption" appears on page 527: "Schon Saussure kannte die beiden für die Grösse der Adsorption massgebenden Factoren, den Druck und die Temperatur, da er Erniedrigung des Druckes oder Erhöhung der Temperatur zur Befreiung der porösen Körper von Gasen benutzte." ("Saussaure already knew the two factors that determine the quantity of adsorption – [namely,] the pressure and temperature – since he used the lowering of the pressure or the raising of the temperature to free the porous substances of gases.")

brownfieldstsc.org

"Glossary". The Brownfields and Land Revitalization Technology Support Center. Archived from the original on 2008-02-18. Retrieved 2009-12-21.

doi.org

"adsorption". Gold Book. IUPAC. 2014. doi:10.1351/goldbook.A00155. Retrieved 1 April 2024.
Ferrari, L.; Kaufmann, J.; Winnefeld, F.; Plank, J. (2010). "Interaction of cement model systems with superplasticizers investigated by atomic force microscopy, zeta potential, and adsorption measurements". J. Colloid Interface Sci. 347 (1): 15–24. Bibcode:2010JCIS..347...15F. doi:10.1016/j.jcis.2010.03.005. PMID 20356605.
Khosrowshahi, Mobin Safarzadeh; Abdol, Mohammad Ali; Mashhadimoslem, Hossein; Khakpour, Elnaz; Emrooz, Hosein Banna Motejadded; Sadeghzadeh, Sadegh; Ghaemi, Ahad (26 May 2022). "The role of surface chemistry on CO2 adsorption in biomass-derived porous carbons by experimental results and molecular dynamics simulations". Scientific Reports. 12 (1): 8917. Bibcode:2022NatSR..12.8917K. doi:10.1038/s41598-022-12596-5. PMC 9135713. PMID 35618757. S2CID 249096513.
Carroll, Gregory T.; Jongejan, Mahthild G. M.; Pijper, Dirk; Feringa, Ben L. (2010). "Spontaneous generation and patterning of chiral polymeric surface toroids". Chemical Science. 1 (4): 469. doi:10.1039/c0sc00159g. ISSN 2041-6520. S2CID 96957407.
Czelej, K.; Cwieka, K.; Kurzydlowski, K.J. (May 2016). "CO₂ stability on the Ni low-index surfaces: Van der Waals corrected DFT analysis". Catalysis Communications. 80 (5): 33–38. doi:10.1016/j.catcom.2016.03.017.
Czelej, K.; Cwieka, K.; Colmenares, J.C.; Kurzydlowski, K.J. (2016). "Insight on the Interaction of Methanol-Selective Oxidation Intermediates with Au- or/and Pd-Containing Monometallic and Bimetallic Core@Shell Catalysts". Langmuir. 32 (30): 7493–7502. doi:10.1021/acs.langmuir.6b01906. PMID 27373791.
Ali, Shimaa M.; Ashour, Basma; Farahat, Mohamed G.; El-Sherif, Rabab M. (September 2024). "Biomass-based perovskite/graphene oxide composite for the removal of organic pollutants from wastewater". Ceramics International. doi:10.1016/j.ceramint.2024.09.249.
Kayser, Heinrich (1881). "Über die Verdichtung von Gasen an Oberflächen in ihrer Abhängigkeit von Druck und Temperatur". Annalen der Physik und Chemie. 248 (4): 526–537. Bibcode:1881AnP...248..526K. doi:10.1002/andp.18812480404.. In this study of the adsorption of gases by charcoal, the first use of the word "adsorption" appears on page 527: "Schon Saussure kannte die beiden für die Grösse der Adsorption massgebenden Factoren, den Druck und die Temperatur, da er Erniedrigung des Druckes oder Erhöhung der Temperatur zur Befreiung der porösen Körper von Gasen benutzte." ("Saussaure already knew the two factors that determine the quantity of adsorption – [namely,] the pressure and temperature – since he used the lowering of the pressure or the raising of the temperature to free the porous substances of gases.")
Foo, K. Y.; Hameed, B. H. (2010). "Insights into the modeling of adsorption isotherm systems". Chemical Engineering Journal. 156 (1): 2–10. doi:10.1016/j.cej.2009.09.013. ISSN 1385-8947. S2CID 11760738.
Kisliuk, P. (January 1957). "The sticking probabilities of gases chemisorbed on the surfaces of solids". Journal of Physics and Chemistry of Solids. 3 (1–2): 95–101. Bibcode:1957JPCS....3...95K. doi:10.1016/0022-3697(57)90054-9.
Langmuir, I.; Schaefer, V.J. (1937). "The Effect of Dissolved Salts on Insoluble Monolayers". Journal of the American Chemical Society. 29 (11): 2400–2414. doi:10.1021/ja01290a091.
Chen, Jixin (2020). "Stochastic Adsorption of Diluted Solute Molecules at Interfaces". ChemRxiv. doi:10.26434/chemrxiv.12402404. S2CID 242860958.
Ward, A.F.H.; Tordai, L. (1946). "Time-dependence of Boundary Tensions of Solutions I. The Role of Diffusion in Time-effects". Journal of Chemical Physics. 14 (7): 453–461. Bibcode:1946JChPh..14..453W. doi:10.1063/1.1724167.
Yi, Honghong (April 2015). "Effect of the Adsorbent Pore Structure on the Separation of Carbon Dioxide and Methane Gas Mixtures". Journal of Chemical & Engineering Data. 60 (5): 1388–1395. doi:10.1021/je501109q. Retrieved 21 April 2023.
Viswambari Devi, R; Nair, Vijay V; Sathyamoorthy, P; Doble, Mukesh (2022). "Mixture of CaCO₃ Polymorphs Serves as Best Adsorbent of Heavy Metals in Quadruple System". Journal of Hazardous, Toxic & Radioactive Waste. 26 (1). doi:10.1061/(ASCE)HZ.2153-5515.0000651. S2CID 240454883.
Malhotra, Milan; Suresh, Sumathi; Garg, Anurag (2018). "Tea waste derived activated carbon for the adsorption of sodium diclofenac from wastewater: adsorbent characteristics, adsorption isotherms, kinetics, and thermodynamics". Environmental Science and Pollution Research. 25 (32): 32210–32220. Bibcode:2018ESPR...2532210M. doi:10.1007/s11356-018-3148-y. PMID 30221322. S2CID 52280860.
Blankenship, L. Scott; Mokaya, Robert (2022-02-21). "Modulating the porosity of carbons for improved adsorption of hydrogen, carbon dioxide, and methane: a review". Materials Advances. 3 (4): 1905–1930. doi:10.1039/D1MA00911G. ISSN 2633-5409. S2CID 245927099.
Mohan, S; Nair, Vijay V (2020). "Comparative study of separation of heavy metals from leachate using activated carbon and fuel ash". Journal of Hazardous, Toxic & Radioactive Waste. 24 (4): 473–491. doi:10.1061/(ASCE)HZ.2153-5515.0000520. PMID 04020031. S2CID 219747988.
Assadi, M. Hussein N.; Hanaor, Dorian A H (June 2016). "The effects of copper doping on photocatalytic activity at (101) planes of anatase TiO2: A theoretical study". Applied Surface Science. 387 (387): 682–689. arXiv:1811.09157. Bibcode:2016ApSS..387..682A. doi:10.1016/j.apsusc.2016.06.178. S2CID 99834042.
D'Alessandro, Deanna M.; Smit, Berend; Long, Jeffrey R. (16 August 2010). "Carbon Dioxide Capture: Prospects for New Materials". Angewandte Chemie International Edition. 49 (35): 6058–6082. doi:10.1002/anie.201000431. PMID 20652916.
Sathre, Roger; Masanet, Eric (2013-03-18). "Prospective life-cycle modeling of a carbon capture and storage system using metal–organic frameworks for CO2 capture". RSC Advances. 3 (15): 4964. Bibcode:2013RSCAd...3.4964S. doi:10.1039/C3RA40265G. ISSN 2046-2069.
Jansen, Daniel; van Selow, Edward; Cobden, Paul; Manzolini, Giampaolo; Macchi, Ennio; Gazzani, Matteo; Blom, Richard; Henriksen, Partow Pakdel; Beavis, Rich; Wright, Andrew (2013). "SEWGS Technology is Now Ready for Scale-up!". Energy Procedia. 37: 2265–2273. Bibcode:2013EnPro..37.2265J. doi:10.1016/j.egypro.2013.06.107.
(Eric) van Dijk, H. A. J.; Cobden, Paul D.; Lukashuk, Liliana; de Water, Leon van; Lundqvist, Magnus; Manzolini, Giampaolo; Cormos, Calin-Cristian; van Dijk, Camiel; Mancuso, Luca; Johns, Jeremy; Bellqvist, David (1 October 2018). "STEPWISE Project: Sorption-Enhanced Water-Gas Shift Technology to Reduce Carbon Footprint in the Iron and Steel Industry". Johnson Matthey Technology Review. 62 (4): 395–402. doi:10.1595/205651318X15268923666410. hdl:11311/1079169. S2CID 139928989.
Wilson, CJ; Clegg, RE; Leavesley, DI; Pearcy, MJ (2005). "Mediation of Biomaterial-Cell Interactions by Adsorbed Proteins: A Review". Tissue Engineering. 11 (1): 1–18. doi:10.1089/ten.2005.11.1. PMID 15738657. S2CID 19306269.
Sivaraman B.; Fears K.P.; Latour R.A. (2009). "Investigation of the effects of surface chemistry and solution concentration on the conformation of adsorbed proteins using an improved circular dichroism method". Langmuir. 25 (5): 3050–6. doi:10.1021/la8036814. PMC 2891683. PMID 19437712.
Scopelliti, Pasquale Emanuele; Borgonovo, Antonio; Indrieri, Marco; Giorgetti, Luca; Bongiorno, Gero; Carbone, Roberta; Podestà, Alessandro; Milani, Paolo (2010). Zhang, Shuguang (ed.). "The effect of surface nanometre-scale morphology on protein adsorption". PLoS ONE. 5 (7): e11862. Bibcode:2010PLoSO...511862S. doi:10.1371/journal.pone.0011862. PMC 2912332. PMID 20686681.
Cheraghian, Goshtasp (2017). "Evaluation of Clay and Fumed Silica Nanoparticles on Adsorption of Surfactant Polymer during Enhanced Oil Recovery". Journal of the Japan Petroleum Institute. 60 (2): 85–94. doi:10.1627/jpi.60.85.
Pilatowsky, I.; Romero, R.J.; Isaza, C.A.; Gamboa, S.A.; Sebastian, P.J.; Rivera, W. (2011). "Sorption Refrigeration Systems". Cogeneration Fuel Cell-Sorption Air Conditioning Systems. Green Energy and Technology. Springer. pp. 99, 100. doi:10.1007/978-1-84996-028-1_5. ISBN 978-1-84996-027-4.
Brandt, Robert K.; Hughes, M.R.; Bourget, L.P.; Truszkowska, K.; Greenler, Robert G. (April 1993). "The interpretation of CO adsorbed on Pt/SiO2 of two different particle-size distributions". Surface Science. 286 (1–2): 15–25. Bibcode:1993SurSc.286...15B. doi:10.1016/0039-6028(93)90552-U.
Uner, D.O.; Savargoankar, N.; Pruski, M.; King, T.S. (1997). "The effects of alkali promoters on the dynamics of hydrogen chemisorption and syngas reaction kinetics on Ru/SiO2 surfaces". Dynamics of Surfaces and Reaction Kinetics in Heterogeneous Catalysis, Proceedings of the International Symposium. Studies in Surface Science and Catalysis. Vol. 109. pp. 315–324. doi:10.1016/s0167-2991(97)80418-1. ISBN 9780444826091.
Narayan, R.L; King, T.S (March 1998). "Hydrogen adsorption states on silica-supported Ru–Ag and Ru–Cu bimetallic catalysts investigated via microcalorimetry". Thermochimica Acta. 312 (1–2): 105–114. Bibcode:1998TcAc..312..105N. doi:10.1016/S0040-6031(97)00444-9.
VanderWiel, David P.; Pruski, Marek; King, Terry S. (November 1999). "A Kinetic Study on the Adsorption and Reaction of Hydrogen over Silica-Supported Ruthenium and Silver–Ruthenium Catalysts during the Hydrogenation of Carbon Monoxide". Journal of Catalysis. 188 (1): 186–202. doi:10.1006/jcat.1999.2646.
Uner, D. O. (1 June 1998). "A Sensible Mechanism of Alkali Promotion in Fischer−Tropsch Synthesis: Adsorbate Mobilities". Industrial & Engineering Chemistry Research. 37 (6): 2239–2245. doi:10.1021/ie970696d.
Zupanc, C.; Hornung, A.; Hinrichsen, O.; Muhler, M. (July 2002). "The Interaction of Hydrogen with Ru/MgO Catalysts". Journal of Catalysis. 209 (2): 501–514. doi:10.1006/jcat.2002.3647.
Trens, Philippe; Durand, Robert; Coq, Bernard; Coutanceau, Christophe; Rousseau, Séverine; Lamy, Claude (November 2009). "Poisoning of Pt/C catalysts by CO and its consequences over the kinetics of hydrogen chemisorption". Applied Catalysis B: Environmental. 92 (3–4): 280–284. Bibcode:2009AppCB..92..280T. doi:10.1016/j.apcatb.2009.08.004.
Rozanov, Valerii V; Krylov, Oleg V (28 February 1997). "Hydrogen spillover in heterogeneous catalysis". Russian Chemical Reviews. 66 (2): 107–119. Bibcode:1997RuCRv..66..107R. doi:10.1070/rc1997v066n02abeh000308. S2CID 250890123.
Barnes, Brian C.; Siderius, Daniel W.; Gelb, Lev D. (2009). "Structure, Thermodynamics, and Solubility in Tetromino Fluids". Langmuir. 25 (12): 6702–16. doi:10.1021/la900196b. PMID 19397254.

elsevier.com

linkinghub.elsevier.com

Ali, Shimaa M.; Ashour, Basma; Farahat, Mohamed G.; El-Sherif, Rabab M. (September 2024). "Biomass-based perovskite/graphene oxide composite for the removal of organic pollutants from wastewater". Ceramics International. doi:10.1016/j.ceramint.2024.09.249.

epfl.ch

infoscience.epfl.ch

D'Alessandro, Deanna M.; Smit, Berend; Long, Jeffrey R. (16 August 2010). "Carbon Dioxide Capture: Prospects for New Materials". Angewandte Chemie International Edition. 49 (35): 6058–6082. doi:10.1002/anie.201000431. PMID 20652916.

handle.net

hdl.handle.net

(Eric) van Dijk, H. A. J.; Cobden, Paul D.; Lukashuk, Liliana; de Water, Leon van; Lundqvist, Magnus; Manzolini, Giampaolo; Cormos, Calin-Cristian; van Dijk, Camiel; Mancuso, Luca; Johns, Jeremy; Bellqvist, David (1 October 2018). "STEPWISE Project: Sorption-Enhanced Water-Gas Shift Technology to Reduce Carbon Footprint in the Iron and Steel Industry". Johnson Matthey Technology Review. 62 (4): 395–402. doi:10.1595/205651318X15268923666410. hdl:11311/1079169. S2CID 139928989.

harvard.edu

ui.adsabs.harvard.edu

Ferrari, L.; Kaufmann, J.; Winnefeld, F.; Plank, J. (2010). "Interaction of cement model systems with superplasticizers investigated by atomic force microscopy, zeta potential, and adsorption measurements". J. Colloid Interface Sci. 347 (1): 15–24. Bibcode:2010JCIS..347...15F. doi:10.1016/j.jcis.2010.03.005. PMID 20356605.
Khosrowshahi, Mobin Safarzadeh; Abdol, Mohammad Ali; Mashhadimoslem, Hossein; Khakpour, Elnaz; Emrooz, Hosein Banna Motejadded; Sadeghzadeh, Sadegh; Ghaemi, Ahad (26 May 2022). "The role of surface chemistry on CO2 adsorption in biomass-derived porous carbons by experimental results and molecular dynamics simulations". Scientific Reports. 12 (1): 8917. Bibcode:2022NatSR..12.8917K. doi:10.1038/s41598-022-12596-5. PMC 9135713. PMID 35618757. S2CID 249096513.
Kayser, Heinrich (1881). "Über die Verdichtung von Gasen an Oberflächen in ihrer Abhängigkeit von Druck und Temperatur". Annalen der Physik und Chemie. 248 (4): 526–537. Bibcode:1881AnP...248..526K. doi:10.1002/andp.18812480404.. In this study of the adsorption of gases by charcoal, the first use of the word "adsorption" appears on page 527: "Schon Saussure kannte die beiden für die Grösse der Adsorption massgebenden Factoren, den Druck und die Temperatur, da er Erniedrigung des Druckes oder Erhöhung der Temperatur zur Befreiung der porösen Körper von Gasen benutzte." ("Saussaure already knew the two factors that determine the quantity of adsorption – [namely,] the pressure and temperature – since he used the lowering of the pressure or the raising of the temperature to free the porous substances of gases.")
Kisliuk, P. (January 1957). "The sticking probabilities of gases chemisorbed on the surfaces of solids". Journal of Physics and Chemistry of Solids. 3 (1–2): 95–101. Bibcode:1957JPCS....3...95K. doi:10.1016/0022-3697(57)90054-9.
Ward, A.F.H.; Tordai, L. (1946). "Time-dependence of Boundary Tensions of Solutions I. The Role of Diffusion in Time-effects". Journal of Chemical Physics. 14 (7): 453–461. Bibcode:1946JChPh..14..453W. doi:10.1063/1.1724167.
Malhotra, Milan; Suresh, Sumathi; Garg, Anurag (2018). "Tea waste derived activated carbon for the adsorption of sodium diclofenac from wastewater: adsorbent characteristics, adsorption isotherms, kinetics, and thermodynamics". Environmental Science and Pollution Research. 25 (32): 32210–32220. Bibcode:2018ESPR...2532210M. doi:10.1007/s11356-018-3148-y. PMID 30221322. S2CID 52280860.
Assadi, M. Hussein N.; Hanaor, Dorian A H (June 2016). "The effects of copper doping on photocatalytic activity at (101) planes of anatase TiO2: A theoretical study". Applied Surface Science. 387 (387): 682–689. arXiv:1811.09157. Bibcode:2016ApSS..387..682A. doi:10.1016/j.apsusc.2016.06.178. S2CID 99834042.
Sathre, Roger; Masanet, Eric (2013-03-18). "Prospective life-cycle modeling of a carbon capture and storage system using metal–organic frameworks for CO2 capture". RSC Advances. 3 (15): 4964. Bibcode:2013RSCAd...3.4964S. doi:10.1039/C3RA40265G. ISSN 2046-2069.
Jansen, Daniel; van Selow, Edward; Cobden, Paul; Manzolini, Giampaolo; Macchi, Ennio; Gazzani, Matteo; Blom, Richard; Henriksen, Partow Pakdel; Beavis, Rich; Wright, Andrew (2013). "SEWGS Technology is Now Ready for Scale-up!". Energy Procedia. 37: 2265–2273. Bibcode:2013EnPro..37.2265J. doi:10.1016/j.egypro.2013.06.107.
Scopelliti, Pasquale Emanuele; Borgonovo, Antonio; Indrieri, Marco; Giorgetti, Luca; Bongiorno, Gero; Carbone, Roberta; Podestà, Alessandro; Milani, Paolo (2010). Zhang, Shuguang (ed.). "The effect of surface nanometre-scale morphology on protein adsorption". PLoS ONE. 5 (7): e11862. Bibcode:2010PLoSO...511862S. doi:10.1371/journal.pone.0011862. PMC 2912332. PMID 20686681.
Brandt, Robert K.; Hughes, M.R.; Bourget, L.P.; Truszkowska, K.; Greenler, Robert G. (April 1993). "The interpretation of CO adsorbed on Pt/SiO2 of two different particle-size distributions". Surface Science. 286 (1–2): 15–25. Bibcode:1993SurSc.286...15B. doi:10.1016/0039-6028(93)90552-U.
Narayan, R.L; King, T.S (March 1998). "Hydrogen adsorption states on silica-supported Ru–Ag and Ru–Cu bimetallic catalysts investigated via microcalorimetry". Thermochimica Acta. 312 (1–2): 105–114. Bibcode:1998TcAc..312..105N. doi:10.1016/S0040-6031(97)00444-9.
Trens, Philippe; Durand, Robert; Coq, Bernard; Coutanceau, Christophe; Rousseau, Séverine; Lamy, Claude (November 2009). "Poisoning of Pt/C catalysts by CO and its consequences over the kinetics of hydrogen chemisorption". Applied Catalysis B: Environmental. 92 (3–4): 280–284. Bibcode:2009AppCB..92..280T. doi:10.1016/j.apcatb.2009.08.004.
Rozanov, Valerii V; Krylov, Oleg V (28 February 1997). "Hydrogen spillover in heterogeneous catalysis". Russian Chemical Reviews. 66 (2): 107–119. Bibcode:1997RuCRv..66..107R. doi:10.1070/rc1997v066n02abeh000308. S2CID 250890123.

iastate.edu

lib.dr.iastate.edu

VanderWiel, David P.; Pruski, Marek; King, Terry S. (November 1999). "A Kinetic Study on the Adsorption and Reaction of Hydrogen over Silica-Supported Ruthenium and Silver–Ruthenium Catalysts during the Hydrogenation of Carbon Monoxide". Journal of Catalysis. 188 (1): 186–202. doi:10.1006/jcat.1999.2646.

iupac.org

goldbook.iupac.org

"adsorption". Gold Book. IUPAC. 2014. doi:10.1351/goldbook.A00155. Retrieved 1 April 2024.

memidex.com

"absorption (chemistry)". Memidex (WordNet) Dictionary/Thesaurus. Archived from the original on 2018-10-05. Retrieved 2010-11-02.

nih.gov

pubmed.ncbi.nlm.nih.gov

Ferrari, L.; Kaufmann, J.; Winnefeld, F.; Plank, J. (2010). "Interaction of cement model systems with superplasticizers investigated by atomic force microscopy, zeta potential, and adsorption measurements". J. Colloid Interface Sci. 347 (1): 15–24. Bibcode:2010JCIS..347...15F. doi:10.1016/j.jcis.2010.03.005. PMID 20356605.
Khosrowshahi, Mobin Safarzadeh; Abdol, Mohammad Ali; Mashhadimoslem, Hossein; Khakpour, Elnaz; Emrooz, Hosein Banna Motejadded; Sadeghzadeh, Sadegh; Ghaemi, Ahad (26 May 2022). "The role of surface chemistry on CO2 adsorption in biomass-derived porous carbons by experimental results and molecular dynamics simulations". Scientific Reports. 12 (1): 8917. Bibcode:2022NatSR..12.8917K. doi:10.1038/s41598-022-12596-5. PMC 9135713. PMID 35618757. S2CID 249096513.
Czelej, K.; Cwieka, K.; Colmenares, J.C.; Kurzydlowski, K.J. (2016). "Insight on the Interaction of Methanol-Selective Oxidation Intermediates with Au- or/and Pd-Containing Monometallic and Bimetallic Core@Shell Catalysts". Langmuir. 32 (30): 7493–7502. doi:10.1021/acs.langmuir.6b01906. PMID 27373791.
Malhotra, Milan; Suresh, Sumathi; Garg, Anurag (2018). "Tea waste derived activated carbon for the adsorption of sodium diclofenac from wastewater: adsorbent characteristics, adsorption isotherms, kinetics, and thermodynamics". Environmental Science and Pollution Research. 25 (32): 32210–32220. Bibcode:2018ESPR...2532210M. doi:10.1007/s11356-018-3148-y. PMID 30221322. S2CID 52280860.
Mohan, S; Nair, Vijay V (2020). "Comparative study of separation of heavy metals from leachate using activated carbon and fuel ash". Journal of Hazardous, Toxic & Radioactive Waste. 24 (4): 473–491. doi:10.1061/(ASCE)HZ.2153-5515.0000520. PMID 04020031. S2CID 219747988.
D'Alessandro, Deanna M.; Smit, Berend; Long, Jeffrey R. (16 August 2010). "Carbon Dioxide Capture: Prospects for New Materials". Angewandte Chemie International Edition. 49 (35): 6058–6082. doi:10.1002/anie.201000431. PMID 20652916.
Wilson, CJ; Clegg, RE; Leavesley, DI; Pearcy, MJ (2005). "Mediation of Biomaterial-Cell Interactions by Adsorbed Proteins: A Review". Tissue Engineering. 11 (1): 1–18. doi:10.1089/ten.2005.11.1. PMID 15738657. S2CID 19306269.
Sivaraman B.; Fears K.P.; Latour R.A. (2009). "Investigation of the effects of surface chemistry and solution concentration on the conformation of adsorbed proteins using an improved circular dichroism method". Langmuir. 25 (5): 3050–6. doi:10.1021/la8036814. PMC 2891683. PMID 19437712.
Scopelliti, Pasquale Emanuele; Borgonovo, Antonio; Indrieri, Marco; Giorgetti, Luca; Bongiorno, Gero; Carbone, Roberta; Podestà, Alessandro; Milani, Paolo (2010). Zhang, Shuguang (ed.). "The effect of surface nanometre-scale morphology on protein adsorption". PLoS ONE. 5 (7): e11862. Bibcode:2010PLoSO...511862S. doi:10.1371/journal.pone.0011862. PMC 2912332. PMID 20686681.
Barnes, Brian C.; Siderius, Daniel W.; Gelb, Lev D. (2009). "Structure, Thermodynamics, and Solubility in Tetromino Fluids". Langmuir. 25 (12): 6702–16. doi:10.1021/la900196b. PMID 19397254.

ncbi.nlm.nih.gov

Khosrowshahi, Mobin Safarzadeh; Abdol, Mohammad Ali; Mashhadimoslem, Hossein; Khakpour, Elnaz; Emrooz, Hosein Banna Motejadded; Sadeghzadeh, Sadegh; Ghaemi, Ahad (26 May 2022). "The role of surface chemistry on CO2 adsorption in biomass-derived porous carbons by experimental results and molecular dynamics simulations". Scientific Reports. 12 (1): 8917. Bibcode:2022NatSR..12.8917K. doi:10.1038/s41598-022-12596-5. PMC 9135713. PMID 35618757. S2CID 249096513.
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