Graecia Lugito, S.T., M.T., Ph.D.

• Ultra low-pressure reverse osmosis (ULPRO) membrane for desalination: Current challenges and future directions
  PTP Aryanti, MY Afred, AK Wardani, G Lugito, GTM Kadja, IG Wenten, K Khoiruddin
  Desalination, 116650, 2023
• M Zunita, W Natola, M David, G Lugito “Integrated Metal Organic Framework/Ionic Liquid-Based Composite
  Membrane for CO2 Separation” Chem. Eng. J. Adv. 2022, 100320.
• SAPO-34 zeotype membrane for gas sweetening
  IGBN Makertihartha, KS Kencana, TR Dwiputra, K Khoiruddin, G Lugito, ...
  Reviews in Chemical Engineering, 2022
• E. M. Woo, C. H. Tu, S. Nagarajan, G. Lugito “Sophisticated dual-discontinuity periodic bands of
  poly(nonamethylene terephthalate)” Cryst. Eng. Comm. 2021, 23, 892-903.
• C. H. Tu, E. M. Woo, S. Nagarajan, G. Lugito “In-Situ Growth of Nucleus Geometry to Dual Types of Periodically
  Ringed Assemblies in Poly (nonamethylene terephthalate)” Crystals 2021, 11 (11), 1338.
• G. Lugito, D. Ariono, M. R. T. Putra, Z. N. Zafra “Progress, Challenges, and Prospects of Forward Osmosis (FO)
  and Pressure Retarded Osmosis (PRO) as An Alternative solution for Water and Energy Crisis” IOP Conf. Ser.:
  Mater. Sci. Eng. 2021, 1143, 012060.
• G. Lugito, T. W. Samadhi, T. Prakoso, M. Lauda, V. L. Tanujaya “T echno-economic and Environmental
  Analyses on Reduced Graphene Oxide modified Kapok Fiber as Oil Absorbent” IOP Conf. Ser.: Mater. Sci. Eng.
  2021, 1143, 012008.
• G. Lugito, S. Nagarajan, E. M. Woo “Explosive Fibonacci-sequence growth into unusual sector-face morphology
  in poly (l-lactic acid) crystallized with polymeric diluents” Scientific reports 2020, 10 (1), 1-14.
• W. Rahmah, A. K. Wardani, G. Lugito, I. G. Wenten “Membrane Technology in Deep Seawater Exploration: A
  Mini Review” J. Membrane Sci. Res. 2020, 6 (3), 280-294.
• I. G. Wenten, K. Khoiruddin, R. Reynard, G. Lugito, H. Julian “Advancement of forward osmosis (FO) membrane
  for fruit juice concentration” J. Food Eng. 2020, 110216.
• G. Lugito, A. Kustiana, R. Martuani, I. G. Wenten “Kapok fibre as potential oil-absorbing material: Modification
  mechanism and performance evaluation” IOP Conf. Series: Mater. Sci. Eng. 2020, 823 (1), 012033.
• G. Lugito, E. M. Woo, M. Zunita, I. G. Wenten “Probing the Interior Lamellar Periodicity and Nano-Assembly of
  Polymer Spherulites via Combinatory Etching Methodology” Polymer 2019, 176, 179-187.
• A. A. I. A. S. Komaladewi, P. T. P. Aryanti, G. Lugito, I. W. Surata, I. G. Wenten “Recent progress in
  microfiltration polypropylene membrane fabrication by stretching method” E3S Web of Conferences 2018, 67,
  03018.
• G. Lugito, C. C. Su, Y. H. Wang, E. M. Woo “Three-Dimensional Interior Analyses on Periodically Banded
  Spherulites of Poly(dodecamethylene terephthalate)” CrystEngComm 2018, 20, 1935-1944.
• G. Lugito, C. C. Su, Y. H. Wang, E. M. Woo “Nano-assembly of intertwining lamellae of opposite bending senses
  in poly(ethylene oxide) co-crystallizing with poly(p-vinyl phenol)” J. Polym. Res. 2017, 24:166.
• E. M. Woo, G. Lugito, C. E. Yang, S. M. Chang “Atomic-Force Microscopy Analyses on Dislocation in Extinction
  Bands of Poly(dodecamethylene terephthalate) Spherulites Solely Packed of Single-Crystal-Like Lamellae”
  Crystals, 2017, 7(9), 274.
• G. Lugito, E. M. Woo, “Structured Growth from Sheaf-like Nuclei to Highly Asymmetric Morphology in
  Poly(nonamethylene terephthalate)” RSC Adv. 2017, 7, 47614–47618.
• G. Lugito, E. M. Woo, “Asymmetric Growth of Co-Crystallized Nano- and Micrometer-Sized Lamellae to JanusFaced Spherulites in Poly(L-lactic acid) with Amorphous Poly(methyl methacrylate)”, Cryst. Growth Des., 2017,
  17, 5034–5037.
• G. Lugito, E. M. Woo, “Multishell Oblate Spheroid Growth in Poly(trimethylene terephthalate) Banded
  Spherulites”, Macromolecules, 2017, 50, 5898–5904.
• G. Lugito, E. M. Woo, W. T. Chuang, “Interior Lamellar Assembly and Optical Birefringence in Poly(trimethylene
  terephthalate) Spherulites: Mechanisms from Past to Present”, Crystals, 2017, 7(2), 56.
• G. Lugito, E. M. Woo, Shih-Min Chang, “Periodic Extinction Bands Composed of All Flat-on Lamellae in
  Poly(dodecamethylene terephthalate) Thin Films Crystallized at High Temperatures”, J. Polym. Sci. Part B:
  Polym. Phys., 2017, 55, 601-611.
• Eamor M. Woo*, Wan-Ting Tsai, and Graecia Lugito, “Interior Dissection on Domain-Dependent Birefringence
  Types of Poly(3-hydroxybutyrate) Spherulites in Blends”, Macromolecules, 2017, 50, 283–295.
• E. M. Woo, G. Lugito, “Cracks in Polymer Spherulites: Phenomenological Mechanisms in Correlation with Ring
  Bands”, Polymers 2016, 8, 00329.
• G. Lugito, E. M. Woo, “Novel approaches to study the crystal assembly in banded spherulites of poly
  (trimethylene terephthalate)”, CrystEngComm 2016, 18, 6158–6165 [cover image].
• E. M. Woo, G. Lugito, J. H. Tsai, A. J. Müller, “Hierarchically Diminishing Chirality Effects on Lamellar Assembly
  in Spherulites Comprising Chiral Polymers”, Macromolecules 2016, 49, 2698–2708.
• G. Lugito, E. M. Woo, “Three Types of Banded Structures in Highly Birefringent Poly(trimethylene terephthalate)
  Spherulites”, J. Polym. Sci. Part B: Polym. Phys. 2016, 54, 1207–1216 [cover image].
• E. M. Woo, G. Lugito, C. E. Yang, “Analysis of Crystal Assembly in Banded Spherulites of Phthalic Acid upon
  Solvent Evaporation”, CrystEngComm 2016, 18, 977-985.
• G. Lugito, E. M. Woo, Y. T. Hsieh, “Transitional Ring Bands Constructed by Discrete Positive- and NegativeBirefringence Lamellae Packed in Poly(1,6-hexamethylene adipate) Spherulites”, Macromolecules 2015, 48,
  7953 – 7967.
• E. M. Woo*, G. Lugito, “Origins of Periodic Bands in Polymer Spherulites”, Eur. Polym. J. 2015, 71, 27 – 60
  [Feature article].
• E. M. Woo*, G. Lugito, J. H. Tsai, “Effects of Top Confinement and Diluents on Morphology in Crystallization of
  Poly(L-lactic acid) Interacting with Poly(ethylene oxide)”, J. Polym. Sci. Part B: Polym. Phys. 2015, 53, 1160 –
  1170.
• E. M. Woo*, G. Lugito, C. E. Yang, S. M. Chang, “Banded Crystalline Spherulites in Polymers and Organic
  Compounds -Interior Lamellar Structures Correlating with Top Surface Topology”, J. Adv. Chem. Eng. 2015, 5
  (2), 1000120 page 1 – 6.
• G. Lugito, E. M. Woo*, “Intertwining Lamellar Assembly in Porous Spherulites Composed of Two Ring-banded
  Poly(ethylene adipate) and Poly(butylene adipate)”, Soft Matter 2015,11, 811-818.
• G. Lugito, E. M. Woo*, “Interior Lamellar Assembly in Correlation to Top-Surface Banding in Crystallized
  Poly(ethylene adipate)”, Cryst. Growth Des. 2014, 14, 4929–4936.
• G. Lugito, C. Y. Yang, E. M. Woo*, “Phase-Separation Induced Lamellar Re-assembly and Spherulite Optical
  Birefringence Reversion”, Macromolecules 2014, 47, 5624–5632.
• G. Lugito, L. Y. Wang, E. M. Woo*, “Chemical and Morphological Alterations Effected by Methylamine Reactions
  on Polyesters”, Macromol. Chem. Phys. 2014, 215, 1297–1305.
• G. Lugito, E. M. Woo*, “Lamellar Assembly Corresponding to Transitions of Positive to Negative-Birefringence
  Spherulites in Poly(ethylene adipate) with Phenoxy”, Colloid. Polym. Sci. 2013, 291, 817-826.
• E. M. Woo, G. Lugito, Y. T. Hsieh, S. Nurkhamidah, “Unusual large-pitch banding in poly(L-lactic acid): Effects
  of composition and geometry confinement”, AIP Conf. Proc. 2014, 1586, 7-13
• International Seminar on Chemical Engineering Soehadi Reksowardojo 2020 in conjunction with
  Symphosis [Oral presentation title: Kapok fibre as potential oil-absorbing material: Modification mechanism and
  performance evaluation].
• International Seminar on Chemical Engineering Soehadi Reksowardojo Kupang, Indonesia, 7 – 9 October
  2019 [Oral presentation title: Kapok fibre as potential oil-absorbing material: Modification mechanism and
  performance evaluation].
• International Workshop on Advance Chemical Technology, Tainan, Taiwan, 15 – 17 August 2018 [invited
  speaker: Study of Crystallization Behavior for Future Development of Polymer Processing].
• Europe Africa Conference 2017 of the Polymer Processing Society (PPS 2017), Dresden, Germany, 26 –
  29 June 2017 [Oral presentation title: Mechanisms of Dual Spherulitic Morphology in Poly(L-lactic acid) Induced
  by Amorphous Polymer].
• The 6th International Conference on Bio-based Polymers (ICBP 2017), Taoyuan, Taiwan, 15 – 17 May 2017
  [oral presentation title: Dual-morphological Spherulite Formation in Poly(L-Lactic Acid) / Atactic-Poly(methyl
  methacrylate) Blend].
• Frontiers in Chemical Engineering The 8th Global Chinese Chemical Engineers Symposium – GCCES
  8, Singapore, 19-22 July 2016 [oral presentation title: Novel Approaches for Studying the Crystallization of
  Poly(trimethylene terephthalate)].
• Annual Meeting of Polymer Society, Taipei, Taiwan, 30-31 January 2015 [Poster presentation title: A
  Comprehensive Study of Polymer Crystallization: Poly ( trimethylene terephthalate)
• Taiwan-Japan Bilateral Polymer Symposium 2014, Tainan, Taiwan, 19-22 November 2014 [Poster
  presentation title: Disclosing the ring-banded spherulites of poly(trimethylene terephthalate) by chemical etching
  approach].
• The 2014 IUPAC World Polymer Congress, MACRO 2014, Chiang Mai, Thailand, 6-11 July 2014 [Oral
  presentation title: Co-crystallization in the Blend of Two Ring-banded Polymers].
• Annual Meeting of Polymer Society, Taichung, Taiwan, 10-11 January 2014 [Poster presentation title:
  Revealing Nest-like Spherulites Composed of Two Ring-banded Polymers: Poly(ethylene adipate) and
  Poly(butylene adipate)].
• The 13th Pacific Polymer Conference, Kaohsiung, Taiwan, 17-22 November 2013 [Poster presentation title:
  Lamellar Assembly and Spherulite Structures in Aliphatic Polyesters Interacting with A Miscible Diluent of
  Amorphous vs. Crystalline Polymer].
• Annual Meeting of Polymer Society, Chia-Yi, Taiwan, 25-26 January 2013 [Oral presentation title: Ringbanded Spherulites in Poly(ethylene adipate): Interior Architecture for Alternating Birefringence-Color Bands].

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