Prof. Hendry Izaac Elim, Ph.D: Insights into Advanced Physics with Elim Advanced Technology Laboratory (EAT Lab), Center for Archipelago Physics (CAP), Pattimura university (UNPATTI)
Join me in exploring the fascinating world of physics. Together, we can inspire curiosity and innovation in the scientific community with the guidance of Trinity Intelligence (TI). Our contribution is always based on the Spirit of Excellence with gentle and humble attitudes.
References:
"The Great Human Being Reshaping: Artificial Intelligence
and Its 21st Century Impacts"
Updated Scientific CV of Prof. Hendry Izaac Elim, Ph.D (pdf)
Welcome to Our Graduated Research Students
==> "We contribute, not ask" (Our EAT Lab.'s Services)
==> We educated out research students as a friend. a friend knew what his/ her friend is conducting. (List of selected discovery)
==> The following are the list of our friends from N4PN L:ab, PPNRI, MrCE, PSNN and EAT Lab:
"Our students are our friends" (URL)
Research theme:
[I]. "Mechanical and optical properties of superfibers from garbage materials":
1. Siti Desiana Hurasan (Nim: 2010-77-020)
2. Zainal Sariwon (Nim: 2010-77-022)
3. Heny Nikijuluw (Nim: 2010-77-039)
4. Elfira Ferdinandus (Nim: 2010-77-021)
5. Nadiyatul K. Latukau (Nim: 2010-77-024)
6. Eliyas Andreas (Nim: 2010-77-012)
7. Diana Wuritimur (Nim: 2009-77-007)
8. Joevanny L. Ririhena (Nim: 2010-77-026)
9. Priscilya Waas (Nim: 2011-77-046)
10. James Hematang (Nim: 2011-77-057)
11. Nur Aida B Retno Sari (Nim: 2011-77-029)
12. Vico Leunufna (Nim: 2011-77-034)
13. Murniati Ode (Nim: 2011-77-003)
14. Nisye Silvia Parera (Nim:2011-77-007)
15. Florensia Saleh (Nim: 2011-77-021)
16. Ruth Kelmaskosu (Nim: 2011-77-032)
17. Meggie S.P. Talanila (Nim: 2011-77-061)
18. Sawia (Nim: 2011-77-012)
19. Karel Kubela ( Nim: 2011-77-037)
20. Susana K. Dahoklory (Nim: 2011-77-001)
21. Diana Tantaru (Nim: 2011-77-010)
22. Lily Dahoklory (Nim: 2011-77-024)
23. Bellatrix Matitakapa (Nim: 2011-77-025)
24. Malthina Paulus (Nim: 2011-77-060)
25. Julian Lord Natasian (Nim: 2010-77-040)
26. Dwi Hastuti Sekerone (Nim: 2011-77-011)
27. Maria Liberta Klise (Nim: 2011-77-062)
28. Stella Tohattu (Nim: 2012-77-109)
29. Frederik Juren (Nim: 2012-77-013)
30. Anto Ivone Marangkey (Nim: 2012-77-026)
31. Merlin B. Lilipaly (Nim: 2012-77-036)
32. Paulina Laleat (Nim: 2012-77-043)
33. Rostandi Korowoceng (Nim: 2012-77-022)
34. Yohansli Noya (Nim: 2013-77-021, *Cum laude, GPA =3.89)
35. Suryani (Nim: 2012-77-015)
36. Elsye Breemer (Nim: 2013-77-014)
Research topics:
[ii]. "Experimental physics of various herbal medicines":
37. Meike H. J. Taberima (NIM: 2015-77-051)
38. Sri M. Rumakur (NIM: 2014-77-014)
39. Rahmi Bin Musaad (NIM: 2014-77-080)
40. Randi Rasyid Latuconsina (NIM: 2016-77-003, *Cum laude, GPA =3.77)
41. Aprilia Angel Pattipeilohy (NIM: 2016-77-012)
42. Wanda Sari Tutupoho (NIM: 2014-77-064)
43. Yosua Pratama Iswahyudi (NIM: 2016-77-002)
44. Fitri Indri Yani Yamsehu (NIM: 2014-77-061)
45. Sariyati Samanery (NIM: 2014-77-051)
46. Jorghia Soumokil (NIM: 2014-77-022)
47. Mirna Wati Ismail (NIM: 2014-77-076)
48. Ledy Eunike Patty (NIM: 2014-77-038)
49. Wa Ode Nurwinda (NIM: 2014-77-049)
50. Amos Eleeujan (NIM: 2012-77-027)
51. Morets Nusaly (NIM: 2012-77-020)
52. Leli Kelmaskosu (NIM: 2014-77-008)
53. Maria Unbekna (NIM: 2013-77-027)
54. Nur Arafah Mahubessy (NIM: 2015-77-011)
55. Amrosius Masrikat (NIM: 2015-77-046)
56. Ido F. Seay (NIM: 2015-77-059)
[iii]. The 1st Energy Mapping work in ASIA:
57. Giovanni Maurice Pradipta (Matr. Nr : 32095, M.Sc at Nordhausen University of Applied Sciences, Germany
[iv]. Advanced Battery research:
58. Kaswan Harusia (NIM: 2016-77-024)
59. Fadli Masad (NIM: 2014-77-018)
60. Karlina (NIM: 2014-77-026)
61. Sulistiawati Wajo (NIM: 2014-77-068)
62. Welmina S. Kolelupun (NIM: 2014-77-067)
63. Baida Latuconsina (NIM: 2011-77-030)
64. Marniks Yoktery (NIM: 2011-77-037)
65. Febrianti Mahrani Kolly (NIM: 2014-77-002)
[v]. Physics of Computational oceanography and Weather:
66. Rayi Khasanah Lalita (NIM: 2013-77-056)
67. Nur Samin Hehanussa (NIM: 2013-77-048)
68. Wahab Loilatu (NIM: 2009-77-021)
69. Nur Sahartira (NIM: 2013-77-052)
70. Hanti Sunita Silawane (NIM: 2013-77-054)
71. Yolin Rumahmury (NIM: 2016-77-005)
72. Anugrah Dinbi Hari R. Ali (NIM: 2014-77-079)
73. Dion Dollan Awayal (NIM: 2014-77-049)
74. Sari J. Latuconsina (NIM: 2014-77-078)
[vi]. Physics of instrumentations:
75. La Rahman Gojali (NIM: 2014-77-020)
76. Feby Shanty Sambonwaman (NIM: 2014-77-023)
77. Gamarius Dedy Kusaly (NIM: 2014-77-003)
78. Rizal Daut Syaranamual (NIM: 2011-77-052)
79. Yosafat Wuarlela (NIM: 2014-77-005)
80. Yulia N. Warat (NIM: 2009-77-010)
81. Meilladelfia G. Rahman (2015-77-012)
82. Santi Kaliwa (2015-77-074)
83. Oktaviana Kristi Sujianti (NIM. 2018-77-009, Cum Laude with GPA = 3.85)
[vii]. Multitasking physics in Herbal medicines:
[84]. FERENA NIELDIEN KAYA
NIM. 201877016
Eksperimen Ekstraksi dan Karakterisasi Sifat Optik serta Listrik Rumput Paragis (Eleusine indica)
[85]. SAFIRA RANTI KEY
NIM. 201777033
Fisika Eksperimen
Sifat Listrik dan Optik Obat Herbal Batang Tanaman Akar Kayu Bajakah (Spatholobus littoralis Hassk)
[86]. WAISNA RUMAKUR
NIM. 201777045
Sifat-sifat listrik dan optik dari ekstrak daun katang-katang
[87]. SICILIA OLIVIA LAISINA
NIM. 201877013
Pengujian Sifat Optik Dan Listrik Dari Ekstrak Daun Gadihu Keriting
[88]. FAHIRA RIZKA RAHANINGMAS
NIM. 201877011
Desain dan fabrikasi sistem listrik DC mobile berelektroda tanah liat
[89]. HADIJA RUMAU
NIM. 201777002
STUDI DAN PENGUKURAN SIFAT-SIFAT LISTRIK GALOBA: TEGANGAN DAN IMPEDANSI
[90]. MEILIN PRISKILYA
NIM. 201977023
KARAKTER INTERAKSI CAHAYA DAN FREKUENSI TINGGI PADA EKSTRAK DAUN KEJI BELING (STROBILANTHES CRISPA L)
[91]. MAURENSYA MATAPERE
NIM. 201977003
ANALISA GETARAN DALAM PENYERAPAN CAHAYA PADA EKSTRAK DAUN GATAL (Laportea decumana (Roxb.) Wedd.)
[92]. SELVIANA MERSI PALIMBU
NIM. 201977016
Karakterisasi dan Uji Sifat Interaksi Optik dan Getaran pada Ekstrak Daun Alifuru (Graptophyllum pictum (L) Griff).
[93]. GWENDOLYN TRIXIE SIHASALE
NIM.201977001
Karakter Optik dan Getaran pada Ekstrak Daun Sirih Popar (Ficus septica Burm. F)
[viii]. Light and sound interactions in Matters (herbal medicines):
94. Siti Musiin
95. Fahira (Nadya) Hatuwe
[ix]. Light and Electricity interactions in Herbal medicines:
96. Engellina Minanrely
97. Rina Nababan
98. Lidya Nababan (Forestry Department)
[x]. Frontier Physics of universe and AI/ Trinity Intelligence (TI):
99. Evan Joseph Lilihata (part-time researcher at EAT Lab)
URL (Over 95 students in the last 10 years): http://elimlaboratory.website2.me/research---publications
Among them, there were 3 cum laude B.Sc. students in Physics plus 1 M.Eng. (Energy mapping) from Germany as follows:
[1]. Yohansli Noya (Nim: 2013-77-021, *Cum laude, GPA =3.89)
[2]. Randi Rasyid Latuconsina (NIM: 2016-77-003, *Cum laude, GPA =3.77)
[3]. Oktaviana Kristi Sujianti (NIM. 2018-77-009, Cum Laude with GPA = 3.85)
[4]. Giovanni Maurice Pradipta, M.Eng. (Matr. Nr : 32095, M.Sc (GPA ~ 4.0) at Nordhausen University of Applied Sciences, Germany
LATEST ARTICLES
About Center for Archipelago Physics (CAP)
CENTER for ARCHIPELAGO PHYSICS (CAP)
A+ Physics Study Program, Physics Department,
Faculty of Science and Technology
URL: ……
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Introduction
A+ Physics Study Program as a part of Physics Department in Faculty of Science and Technology (FST) at Pattimura university (UNPATTI) has one research center, CENTER for ARCHIPELAGO PHYSICS (CAP).
The CENTER for ARCHIPELAGO PHYSICS (CAP) beautifully nestled among a constellation of incredible tropical islands in Maluku province at Pattimura university of Ambon island, surrounded by shimmering blue waters and connected by elegant pathways of Lease islands (Saparua, Nusa Laut and Haruku islands) and deep sea Banda with its 11 small islands such as Banda Besar, Rum, AI, etc. This setting captures the harmony between scientific exploration and the natural world.
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The aim of CAP
CAP has main purpose to be expanded and implemented in advancing frontier physics especially in archipelago prefecture consisted of over 1000 small islands like Maluku province in the eastern part of Indonesia.
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The content of CAP
There are at least 5 integrated research laboratories which sustain CAP. Each research laboratory was chaired by a senior scientist or professor.
The following is one of the 5 laboratories that forms CAP:
[1]. ELIM Advanced Technology (EAT) Lab., Physics department (since March 2024) was headed by Prof. Hendry Izaac Elim, Ph.D, an Indonesia physicist and the first physics professor in the eastern part of Indonesia (on 1st Dec. 2022). He is also an expert consultant in CENTER for ARCHIPELAGO PHYSICS (CAP) after ~10 years faithful work as founder of Pusat Penelitian Nanoteknologi dan Rekayasa Inovasi (PPNRI) since 24th April 2015 up to 2025. The CAP was advanced by developing it based on the motto: “Excellent wisdom in our spirit & excellent knowledge in our soul”. Furthermore, EAT Lab. was built according to the implemented mindset idea of “PHYSICS is a Genius SCIENCE.”
Selected publications:
Here is the links of our publications (URL): https://fisika.fst.unpatti.ac.id/wp-content/uploads/2025/11/7-Nov-2025-Scientific-CV-of-Prof-Hendry-Izaac-Elim-5-11-2025-compressed.pdf
For examples:
[1]. Sound Velocity Properties due to Salinity, Temperature and Depth of The Whole Banda Sea: A Marvelous Thing of The ~318 Meter Surface of Deep Sea, H.I. Elim, P. Nanlohy, Nasrin Silawane, IWNASA , Advances in Theoretical and Computational Physics 1 (1), 1-5 (2018).
[2]. Smart Innovative Technology for the NOVEL Superfibers Development of Ocean Wastes, Memuliakan Laut, Pattimura University Press, pp.250-263 (2017), HI Elim, Memuliakan Laut. Buah Pikiran Akademisi Universitas Pattimura, Publisher of Pattimura University Press (2017).
[3]. Wulfilla Maxmilian Rumaherang, Hendry Izaac Elim, Altje Latununuwe, Estevanus Kristian Huliselan, Johanis D. Lekalette, Performance energy production with advanced design and prototype floating ducted tidal turbine for small islands, Renewable and Sustainable Energy Reviews 216:115664 (2025). DOI: 10.1016/j.rser.2025.115664
[4]. Wulfilla Maxmilian Rumaherang, Hendry Izaac Elim , Altje Latununuwe, Estevanus Kristian Huliselan, Ariviana Lientje Kakerissa, Techno-economic analysis of floating ocean current power plant of Haya Strait Indonesia, Renewable Energy 251(3):123350 (2025). DOI: 10.1016/j.renene.2025.123350
[5]. Perpetual Voltage Control with Flexible Thin Battery from Green Garbage Materials, HI Elim, MV Reddy, M Rahman, RR Latuconsina, AA Pattipeilohy, Encyclopedia of Green Materials, pp. 1577-1586 (2025).
URL: Encyclopedia of Green Materials | SpringerLink
[6]. Pseudocapacitive charge storage in thin nanobelts, R Kunwar, M Harilal, SG Krishnan, B Pal, II Misnon, CR Mariappan, H.I. Elim... Advanced Fiber Materials 1, 205-213 (2019)
[7]. Aspect-ratio Dependence of Optical Nonlinearities on Resonance with Longitudinal Surface Plasmon in Au Nanorods: Unique Character versus Common Behavior, Hendry I. Elim, Wei Ji, Mohan Singh Dhoni, N. Venkatram, Jian Yang, Science Nature 1 (1), 1-7 (2018).
[8]. Large nonlinear absorption in single aggregate of silver nanoparticles observed with z-scan imaging technique HI Elim, AIP Advances 11 (11), 115015 (2021)
PROFILE Professor Hendry Izaac Elim
Who I Am
Professor Hendry Izaac Elim
(Web of Science profile's URL: https://www.webofscience.com/wos/author/record/JBJ-6966-2023) is a dedicated academic renowned for his contributions to advanced physics.
His background encompasses a wealth of educational achievements and impactful publications.
(ORCID ID URL: https://orcid.org/0000-0002-4272-7115 )
With involvement in international conferences, he fosters community initiatives that promote scientific ideas and collaboration among researchers worldwide.
(Scopus profile url: https://www.scopus.com/authid/detail.uri?authorId=6603207737 )
Prof. Hendry Izaac Elim’s research, concentrated in nanoscience, nanotechnology, nonlinear optics, and herbal nanomedicine, has substantial potential to reshape diverse industrial sectors.
Based on publicly available information,
his work affects industrial business in at least 6 to 7 multiple interrelated ways:
[1]. Advanced Materials & Manufacturing
Superhybrid Nanostructures: Prof. Elim has developed composite nanomaterials such as PbS-Au, CNT-ZnO₂, and TiO₂-polymer hybrids with unique ultrafast optical and nonlinear properties.
Industrial Implication: These materials can enhance photonic devices, sensors, and optical communication systems, enabling faster, more energy-efficient industrial electronics and telecommunications manufacturing.
Innovation in Production: His Z-scan imaging technique allows real-time characterization of nanostructures, reducing the development cycle for high-performance materials and lowering R&D costs.
[2]. Energy & Power Systems
Renewable Energy Devices: Elim’s group prototypes floating ocean current power plants with ducted turbines, perpetual voltage control flexible thin batteries, and liquid batteries from waste liquids.
Industrial Implication: These technologies support the growth of the clean energy sector, particularly for island communities and small-scale industrial power generation. Companies in renewable energy, battery storage, and microgrid solutions can commercialize these prototypes for local and regional markets.
[3]. Environmental and Circular Economy Applications
Waste-to-Energy & Materials: Using discarded materials like wooden waste for flexible batteries and producing superfibers from various garbage, Elim’s work advances the circular economy.
Industrial Implication: Industries producing consumer goods, construction materials, or recycling platforms can leverage these methods to reduce waste management costs and improve sustainability metrics.
[4]. Healthcare & Herbal Nanomedicine
Multitasking Herbal Medicines: Research on Galoba species, herbal nanoparticles, and integrated healing systems bridges traditional medicine and modern nanotechnology.
Industrial Implication: Pharmaceutical, nutraceutical, and functional beverage enterprises may develop new multitarget products with enhanced delivery and efficacy, potentially accelerating commercialization of herbal-based therapeutics.
[5]. Industry 5.0 & Society 5.0 Integration
Prof. Elim emphasizes evaluation of interaction data for Industry 5.0, connecting technology, human intelligence, and AI-integrated systems.
Industrial Implication: Business sectors can utilize AI-enhanced smart systems for operational optimization, employee workflow, and supply chain resilience, supporting productivity in high-complexity manufacturing and services.
[6]. Intellectual Property & Commercial Scale-Up
Patents and Prototypes: With advances in nanostructures, renewable energy converters, and herbal nanomedicine, Prof. Elim’s lab output creates licensable technologies.
Industrial Implication: This opens pathways for startups, spin-offs, and technology licensing agreements, fostering entrepreneurial ventures in high-tech niches.
[7]. Trinity Intelligence (TI) and Its applications to embodied AI
By integrating of Spiritual intelligence (SI), Emotional Intelligence (EI) and Glorified Intelligence (GI) or the logical intelligence (AI), the embodied TI-AI can work just like a genius human being.
Conclusion
Prof. Hendry Izaac Elim’s breakthroughs catalyze industrial innovation across high-tech materials, renewable energy, environmental sustainability, and health industries.
Businesses adopting his research can achieve:
[a]. Faster product development via advanced characterization and novel materials.
[b]. Improved energy efficiency and renewable solutions.
[c]. Sustainable circular economy models.
[d]. Innovative herbal nanomedicine products.
[e]. Integration of Trinity Intelligence to enhance the abilities of AI and human-centered technologies in Industry 5.0.
The cumulative effect positions industries to not only enhance competitiveness and productivity but also to align with global sustainability and technological frontiers.
TOPICS
My Offerings
I offer a range of courses that delve into various aspects of physics, encouraging deep understanding and critical thinking. Prof. H.I. Elim's profile in SINTA
Quantum
Exploring the fundamentals of quantum mechanics and its implications.
References:
[1]. Exact energy shift in each state: URL: https://arxiv.org/abs/quant-ph/9901009
[2]. The beauty of nonlinear potential:
URL: https://arxiv.org/abs/nlin/0106009
[3]. Integrated Quantum Control:
URL: https://iopscience.iop.org/article/10.1088/1742-6596/1463/1/012035/meta
Learn about the behavior of matter and energy at the smallest scales. This course emphasizes experimental and theoretical concepts.
Relativity
Understanding Space-Time & Theory of Everything
References:
[1]. Our outcomes in the last 26 years
[2]. Emerging Superhybrid Structures:
[3]. Trinity God's stick of Universe picture:
[4]. Gravity vs Renewable energy:
Dive into Einstein's theory of relativity, discussing its effects on the universe's structure and our perception of time.
Thermodynamics
Heat and Energy
(Integrated in 2 worlds of General Relativity and Quantum system)
References:
[1]. Multitasking Physical Healing: from god to man
[2]. Trinity God'sn stick Mindset:
[3]. Mystery of Unsolved Problems about virus:
Investigate the laws governing heat, work, and energy transfer in physical systems, highlighting practical applications in real-world scenarios.
UPCOMING EVENTS
