Contact

Phone: 470-578-2654

Email: bbaruah@kennesaw.edu

Office Location: SL 4015

Office Hours:
Find it in your Syllabus or make an appointment via Email!

Publications

54) Baruah, B.; Raval, R. Transparent Wood Fabricated with Natural Materials for Excellent Ultraviolet Protection Function and Energy-Efficient Housing Application. ACS Sustainable Resour. Manage. 2026, 3, 105-114. https://pubs.acs.org/doi/10.1021/acssusresmgt.5c00415

53) Baruah, B.; Woods, M. Silver Nanoparticle-Immobilized Cotton Fabric Serves as Flexible Surface-Enhanced Raman Scattering Substrate for Detection of Toxin. Inorganics 2024, 12(6), 170. https://doi.org/10.3390/inorganics12060170

52) Baruah, B.; Phillips, G. D.; Ferreira, D. R.; Boone, N. J.; Mcnutt, D. A. Comparing Cs+ binding affinity of Keggin type polyoxometalate and sodium Tetrakis(4-florophenyl)borate in solution and from Cs-doped pure phase vermiculite. J. Environ. Radioact. 2022, 253-254, 107008. https://www.sciencedirect.com/science/article/abs/pii/S0265931X22001990?via%3Dihub.  

51) Panta, P.; Baruah, B.; Patil, S. Hypertonic Saline Use and Traditional Nasal Irrigation: A Possible Preventative Measure against COVID-19. J. Contemp. Dent. Pract. 2022, 23, 379-382 https://www.thejcdp.com/doi/JCDP/pdf/10.5005/jp-journals-10024-3278.  

50) Ferreira, D. R.; Phillips, G. D.; Baruah, B. A Comparison of the Adsorption of Cesium on Zeolite Minerals Vs Vermiculite. Clays Clay Miner. (2021). https://doi.org/10.1007/s42860-021-00150-9

49) Baruah, B.; Kelley, C.; Djokoto, G. B.; Hartnett, K. M. Polymer-capped gold nanoparticles and ZnO nanorods form binary photocatalyst on cotton fabrics: Catalytic breakdown of dye. Front. Mater. Sci. 2021, 15, 431-447. https://link.springer.com/article/10.1007/s11706-021-0565-5.

48) Baruah, B. Could Simultaneous Nasal and Oral Irrigation Be a Nontherapeutic Tool against SARS-CoV-2? ACS Chem. Neurosci. 2021, 12, 2-4. https://pubs.acs.org/doi/10.1021/acschemneuro.0c00740.

47) Levinger, N. E.; Baruah, B. Celebrating Debbie C. Crans on the event of her ACS Award for Distinguished Service in the Advancement of Inorganic Chemistry, 2019. J. Inorg. Biochem. 2020, 208, 111107. (HTML link)

46) Levinger, N. E.; Baruah, B. Journal of inorganic biochemistry – Crans special issue. J. Inorg. Biochem. 2020, 208, 111108. (HTML link)

45) Baruah, B.; Downer, L.; Agyeman, D. Fabric-based composite materials containing ZnO-NRs and ZnO-NRs-AuNPs and their application in photocatalysis. Mater. Chem. Phys. 2019, 231, 252-259. (HTML link)

44) Corella, D. A.; Baruah, B. 3D macroporous TiO2 inverse opal binary and ternary composite materials and their photocatalytic activity. RSC Adv. 2017, 7, 47038-47048. (HTML link)

43) Baruah, B.; Miller, T.-A. Polyoxovanadate fabricated gold nanoparticles: Application in SERS. J. Colloid Interface Sci. 2017, 487, 209-216. (HTML link)

42) Baruah, B. In Situ and Facile Synthesis of Silver Nanoparticles on Baby Wipes and Their Applications in Catalysis and SERS. RSC Adv. 2016, 6, 5016-5023. (HTML Link)

41) Sanchez-Lombardo, I.; Baruah, B.; Alvarez, S.; Werst, K. R.; Segaline, N. A.; Levinger, N. E.;  Crans, D. C. Size and Shape Trump Charge in interactions of Oxovanadates with Sel-assembled Interfaces: Application of Continueous Shape Measure Analysis to the Decavanadate Anion. New J. Chem. 2016, 40, 962-975. (HTML link)

40) Baruah, B.; Kiambuthi, M. Facile Synthesis of Silver and Bimetallic Silver-Gold Nanoparticles and Their Applications in Surface-Enhanced Raman Scattering. RSC Adv. 2014, 4, 64860-64870. (HTML link)

39) Madan, J.; Gundala, S. R.; Baruah, B.; Nagaraju, M.; Yates, C.; Turner, T.; Rangari, V.; Hamelberg, D.; Reid, M. D.; Aneja, R. Cyclodextrin Complexes of Reduced Bromonoscapine in Guar Gum Microspheres Enhance Colonic Drug Delivery. Mol. Pharmaceutics. 2014, 11, 4339-4349. (HTML link)

38) Baruah, B.; Gabriel, G. J.; Akbashev, M. J.; Booher, M. E. Facile Synthesis of Silver Nanoparticles Stabilized by Cationic Polynorbornenes and Their Catalytic Activity in 4-Nitrophenol Reduction. Langmuir 2013, 29, 4225-4234. (HTML link)

37) Baruah, B.; Carighead, C.; Abolerin, C. One-Phase Synthesis of Surface Modified Gold Nanoparticles and Generation of SERS Substrate by Seed Growth Method. Langmuir 2012, 28, 15168-15176. (HTML link)

36) Baruah, B.; Surin, A. Interaction of liposome-encapsulated cisplatin with biomolecules. J. Biol. Inorg. Chem. 2012, 17, 899-910. (HTML link)

35) Madan, J.; Baruah, B.; Nagaraju, M.; Abdalla, M. O.; Yates, C.; Turner, T.; Rangari, V.; Hamelberg, D.; Aneja, R. Molecular Cycloencapsulation Augments Solubility and Improves Therapeutic Index of Brominated Noscapine in Prostate Cancer Cells. Mol. Pharmaceutics. 2012, 9, 1470-1480. (HTML link)

Publications During Postdocoral Research:

34) Levinger, N. E.; Rubenstrunk, L.C.; Baruah, B.; Crans, D. C. Acidification of Reverse Micellar Nanodroplets by Atmospheric Pressure CO2.  J. Am. Chem. Soc. 2011, 133, 7205-7214.

33) Falcone, R. D.; Baruah, B.; Gaidamauskas, E.; Rithner, C. D.; Correa, N. M.; Silber, J. J.; Crans, D. C.;  Levinger, N. E. Layered Structure of Room-Temperature Ionic Liquids in Microemulsions by Multinuclear NMR Spectroscopic Studies.  Chem. Eur. J. 2011, 17, 6837–6846.

32) Crans, D. C.; Schoeberl, S.; Gaidamauskas, E.; Baruah, B.; Ross, D. A.; Levinger, N. E. Antidiabetic vanadium compound and membrane interfaces: interface-facilitated metal complex hydrolysis.  J. Biol. Inorg. Chem. 2011, 16, 961-972.

31) Smee, J. J.; Epps, J. A.; Ooms, K.; Bolte, S. E.; Polenova, T.; Baruah, B.; Yang, L.; Ding, W.; Li, M.; Willsky, G. R.; La Cour, A.; Anderson, O. P.; Crans, D. C., Chloro-substituted dipicolinate vanadium complexes: Synthesis, solution, solid-state, and insulin-enhancing properties. J. Inorg. Biochem. 2009, 103, (4), 575-584.

30) Ooms, K. J.; Bolte, S. E.; Baruah, B.; Choudhary, M. A.; Crans, D. C.; Polenova, T., 51V solid-state NMR and density functional theory studies of eight-coordinate non-oxo vanadium complexes: oxidized amavadin. Dalton Trans. 2009, 3262-3269.

29) Lenhardt, J. M.; Baruah, B.; Crans, D. C.; Johnson, M. D., Electron transfer in non-oxovanadium(IV) and (V) complexes: kinetic studies of an amavadin model. Pure Appl. Chem 2009, 81, (7), 1241-1249.

28) Crans, D. C.; Baruah, B.; Ross, A.; Levinger, N. E., Impact of confinement and interfaces on coordination chemistry: Using oxovanadate reactions and proton transfer reactions as probes in reverse micelles. Coord. Chem. Rev. 2009, 253, (17-18), 2178-2185.

27) Stahla, M. L.; Baruah, B.; James, D. M.; Johnson, M. D.; Levinger, N. E.; Crans, D. C., 1H NMR Studies of Aerosol-OT Reverse Micelles with Alkali and Magnesium Counterions: Preparation and Analysis of MAOTs. Langmuir 2008, 24, (12), 6027-6035.

26) Roess, D. A.; Smith, S. M. L.; Winter, P.; Zhou, J.; Dou, P.; Baruah, B.; Trujillo, A. M.; Levinger, N. E.; Yang, X.; Barisas, B. G.; Crans, D. C., Effects of vanadium-containing compounds on membrane lipids and on microdomains used in receptor-mediated signaling. Chem. Biodiversity 2008, 5, (8), 1558-1570.

25) Li, M.; Wei, D.; Ding, W.; Baruah, B.; Crans, D. C., Anti-diabetic effects of cesium aqua (N,N'-ethylene (salicylideneiminato)-5-sulfonato) oxovanadium (IV) dihydrate in streptozotocin-induced diabetic rats. Biol. Trace Elem. Res. 2008, 121, (3), 226-232.

24) Li, M.; Ding, W.; Baruah, B.; Crans, D. C.; Wang, R., Inhibition of protein tyrosine phosphatase 1B and alkaline phosphatase by bis(maltolato)oxovanadium (IV). J. Inorg. Biochem. 2008, 102, (10), 1846-1853.

23) Crans, D. C.; Trujillo, A. M.; Bonetti, S.; Rithner, C. D.; Baruah, B.; Levinger, N. E., Penetration of negatively charged lipid interfaces by the doubly deprotonated dipicolinate. J. Org. Chem. 2008, 73, (24), 9633-9640.

22) Crans, D. C.; Baruah, B.; Gaidamauskas, E.; Lemons, B. G.; Lorenz, B. B.; Johnson, M. D., Impairment of ascorbic acid's anti-oxidant properties in confined media: Inter and intramolecular reactions with air and vanadate at acidic pH. J. Inorg. Biochem. 2008, 102, (5-6), 1334-1347.

21) Bolte Stephanie, E.; Ooms Kristopher, J.; Polenova, T.; Baruah, B.; Crans Debbie, C.; Smee Jason, J., 51V solid-state NMR and density functional theory studies of vanadium environments in V(V)O2 dipicolinic acid complexes. J Chem Phys 2008, 128, (5), 052317.

20) Bolte, S. E.; Ooms, K. J.; Polenova, T.; Baruah, B.; Crans, D. C.; Smee, J. J., 51V solid-state NMR and density functional theory studies of vanadium environments in V(V)O2 dipicolinic acid complexes. J. Chem. Phys. 2008, 128, (5), 052317/1-052317/11.

19) Baruah, B.; Swafford, L. A.; Crans, D. C.; Levinger, N. E., Do Probe Molecules Influence Water in Confinement? J. Phys. Chem. B 2008, 112, (33), 10158-10164.

18) Aureliano, M.; Henao, F.; Tiago, T.; Duarte, R. O.; Moura, J. J. G.; Baruah, B.; Crans, D. C., Sarcoplasmic Reticulum Calcium ATPase Is Inhibited by Organic Vanadium Coordination Compounds: Pyridine-2,6-dicarboxylatodioxovanadium(V), BMOV, and an Amavadine Analogue. Inorg. Chem. 2008, 47, (13), 5677-5684.


17) Smee, J. J.; Epps, J. A.; Teissedre, G.; Maes, M.; Harding, N.; Yang, L.; Baruah, B.; Miller, S. M.; Anderson, O. P.; Willsky, G. R.; Crans, D. C., 4-Amino- and 4-Nitrodipicolinatovanadium(V) Complexes and Their Hydroxylamido Derivatives: Synthesis, Aqueous, and Solid-State Properties. Inorg. Chem. (Washington, DC, U. S.) 2007, 46, (23), 9827-9840.

16) Roess, D. A.; Smith, S. M. L.; Holder, A. A.; Baruah, B.; Trujillo, A. M.; Gilsdorf, D.; Stahla, M. L.; Crans, D. C., Do vanadium compounds drive reorganization of the plasma membrane and activation of insulin receptors with lipid rafts? ACS Symp. Ser. 2007, 974, (Vanadium), 121-134.

15) Ooms, K. J.; Bolte, S. E.; Smee, J. J.; Baruah, B.; Crans, D. C.; Polenova, T., Investigating the Vanadium Environments in Hydroxylamido V(V) Dipicolinate Complexes Using 51V NMR Spectroscopy and Density Functional Theory. Inorg. Chem. 2007, 46, (22), 9285-9293.

14) Fielding, A. J.; Back, D. B.; Engler, M.; Baruah, B.; Crans, D. C.; Eaton, G. R.; Eaton, S. S., Electron spin lattice relaxation of V(IV) complexes in glassy solutions between 15 and 70 K. ACS Symp. Ser. 2007, 974, (Vanadium), 364-375.

13) Baruah, B.; Crans, D. C.; Levinger, N. E., Simple Oxovanadates as Multiparameter Probes of Reverse Micelles. Langmuir 2007, 23, (12), 6510-6518.

12) Lenhardt, J.; Baruah, B.; Crans, D. C.; Johnson, M. D., Self-exchange electron transfer in high oxidation state non-oxo metal complexes: amavadin. Chem. Commun. (Cambridge, U. K.) 2006, (44), 4641-4643.

11) Crans, D. C.; Rithner, C. D.; Baruah, B.; Gourley, B. L.; Levinger, N. E., Molecular Probe Location in Reverse Micelles Determined by NMR Dipolar Interactions. J. Am. Chem. Soc. 2006, 128, (13), 4437-4445.

10) Crans, D. C.; Baruah, B.; Levinger, N. E., Oxovanadates: a novel probe for studying lipid-water interfaces. Biomed. Pharmacother. 2006, 60, (4), 174-181.

9) Baruah, B.; Roden, J. M.; Sedgwick, M.; Correa, N. M.; Crans, D. C.; Levinger, N. E., When Is Water Not Water? Exploring Water Confined in Large Reverse Micelles Using a Highly Charged Inorganic Molecular Probe. J. Am. Chem. Soc. 2006, 128, (39), 12758-12765.

Publications during Ph. D. work:

8) Baruah, B.; Rath, S. P.; Chakravorty, A., A novel pentacoordinated dioxovanadium(V) salicylaldiminate: Solvent specific crystallization of dimorphs with contrasting coordination geometries, ligand conformations and supramolecular architectures. Eur. J. Inorg. Chem. 2004, (9), 1873-1878.

7) Baruah, B.; Rajak, K. K.; Chakravorty, A., First mononuclear and binuclear vanadate esters of mixed aliphatic-aromatic diols. Indian J. Chem., Sect. A: 2003, 42A, (11), 2680-2682.

6) Baruah, B.; Golub, V. O.; O'Connor, C. J.; Chakravorty, A., Synthesis of oxalato-bridged (oxo)vanadium(IV) dimers using L-ascorbic acid as oxalate precursor: Structure and magnetism of two systems. Eur. J. Inorg. Chem. 2003, (12), 2299-2303.

5) Baruah, B.; Das, S.; Chakravorty, A., Vanadate chelate esters of monoionized diols and carbohydrates. Coord. Chem. Rev. 2003, 237, (1-2), 135-146.

4) Baruah, B.; Chakravorty, A., A reactive vanadium catecholate with variable solid state coordination number. Indian J. Chem., Sect. A: 2003, 42A, (11), 2677-2679.

3) Baruah, B.; Das, S.; Chakravorty, A., A Family of Vanadate Esters of Monoionized and Diionized Aromatic 1,2-Diols: Synthesis, Structure, and Redox Activity. Inorg. Chem. 2002, 41, (17), 4502-4508.

2) Baruah, B.; Chakravorty, A., A new decavanadate salt incorporating both inorganic and organic cations. Indian J. Chem., Sect. A: 2002, 41A, (12), 2447-2449.

1) Rajak, K. K.; Baruah, B.; Rath, S. P.; Chakravorty, A., Sugar Binding to VO3+. Synthesis and Structure of a New Mannopyranoside Vanadate. Inorg. Chem. 2000, 39, (7), 1598-1601.

 

Media Coverage:  

Transparent Wood Related Research by Baruah Group Received Media Publicity:

1)    Making sturdy, semi-transparent wood with cheap, natural materials, ACS, SAN DIEGO, March 26, 2025. https://www.acs.org/pressroom/presspacs/2025/march/making-sturdy-semi-transparent-wood-with-cheap-natural-materials.html 

2)    Kennesaw State researcher tackling sustainability through use of transparent wood, – Story by Darius Goodman and Photos by Darnell Wilburn, KENNESAW, Ga. | Apr 23, 2025. https://www.kennesaw.edu/news/stories/2025/ksu-researcher-tackling-sustainability-transparent-wood.php  

3)    This wood has been made transparent…using a very surprising recipe! Interview with Herve Ratel, Sciences Avenir, March 26, 2025. 

4)    Transparent wood could reduce consumer electronics waste, benefit Earth, David Jen, American Society of Civil Engineers, 8/20/2025. https://www.asce.org/publications-and-news/civil-engineering-source/article/2025/08/20/transparent-wood-could-reduce-consumer-electronics-waste  

5)    Wood made transparent using rice and egg whites could replace windows, Interview with Matthew Sparkes, New Scientist, 26 March 2025. https://www.newscientist.com/article/2472611-wood-made-transparent-using-rice-and-egg-whites-could-replace-windows/  

6)    Transparent Wood: A Natural Alternative to Plastic and Glass, Michael Karow, Weatherology.com. https://weatherology.com/trending/articles/Transparent-Wood-Natural-Alternative-Plastic-Glass.html  

7)    Why wood could be the next wonder material, thanks to science, LOU READE, SCI, Issue 9, 2025. https://www.soci.org/chemistry-and-industry/cni-data/2025/9/why-wood-could-be-the-next-wonder-material  

8)    Eggs, sticky rice, and transparent wood create new kind of window Ancient masonry techniques may help replace costly glass, Andrew Paul, Popular Science, Published Mar 26, 2025. https://www.popsci.com/technology/transparent-wood-window/  

9)    Kennesaw State researcher develops transparent wood By Larry Adams, Woodworking Industry News, April 25, 2025. https://www.woodworkingnetwork.com/news/woodworking-industry-news/kennesaw-state-researcher-develops-transparent-wood 

10)  Making Sturdy, Semi-Transparent Wood with Cheap, Natural Materials Researchers have created proof-of-concept transparent woods using almost entirely natural materials, Labmanager, Mar 28, 2025. https://www.labmanager.com/making-sturdy-semi-transparent-wood-with-cheap-natural-materials-33808 

11)  New ‘Transparent’ Wood Made with Egg Whites and Rice Could Replace Window Glass, USGlass Magazine & USGNN News, April, 8, 2025 https://www.usglassmag.com/new-transparent-wood-made-with-egg-whites-and-rice-could-replace-window-glass/ 

12)  Transparent wood looks to revolutionize home construction and personal electronics, Joseph Shavit, The Brighter Side of News, Published Mar 26, 2025. https://www.thebrighterside.news/post/transparent-wood-looks-to-revolutionize-home-construction-and-personal-electronics/ 

13)  Semi-Transparent, Strong Wood Developed from Natural, Low-Cost Materials, Material District, 3 April 2025. https://materialdistrict.com/article/semi-transparent-strong-wood-developed-from-natural-low-cost-materials/ 

14)  All-Natural, Semi-Transparent, And Electrically Conductive Wood Is Now A Reality The smartphone of the future might have a wooden display. IFL Science, Dr. Alfredo Carpineti, Edited by Holly Large, March 27, 2025. https://www.iflscience.com/all-natural-semi-transparent-and-electrically-conductive-wood-is-now-a-reality-78581 

15)  Transparent Wood? Scientists Invent Biodegradable Material That Could Replace Plastics, The Debrief, Christopher Plain, March 28, 2025.  https://thedebrief.org/transparent-wood-scientists-invent-biodegradable-material-that-could-replace-plastics/ 

16)  Could wood be your phone’s next touchscreen? Pickr, Leigh Stark, May 06, 2025. https://www.pickr.com.au/news/2025/could-wood-be-your-phones-next-touchscreen/ 

17)  Researchers’ Bizarre New Way to Make Wood as Transparent as Glass! Making sturdy, semi-transparent wood with cheap, natural materials. Wood Central, Monday, 31 Mar 25.   https://woodcentral.com.au/researchers-bizarre-new-way-to-make-wood-as-transparent-as-glass/  

18)  Researchers Found A Bizarre Way To Make Wood As Transparent As Glass. By Joshua Hawkins, BGR,  March 30, 2025. https://www.bgr.com/science/researchers-found-a-bizarre-way-to-make-wood-as-transparent-as-glass/ 

19)  See-Through Wood? Scientists Turn Rice and Egg Whites into Future Windows. Nidhi Goyal, Industry Tap | April 10th, 2025. https://www.industrytap.com/see-through-wood-scientists-turn-rice-and-egg-whites-into-future-windows/76883 

20)  Researchers Create Transparent Woods Made of Natural Materials, Tempo English, Defara Dhanya, April 3, 2025. https://en.tempo.co/read/1993030/researchers-create-transparent-woods-made-of-natural-materials-stand-in-for-glass 

21)  Ancient Building Techniques Inspire Wood That You Can See Through. Science Blog.com, March 26, 2025. https://scienceblog.com/ancient-building-techniques-inspire-wood-that-you-can-see-through/

22)  Future Windows Could Be Made of Wood, Rice, and Egg Whites Simple materials could turn wood into a greener glass alternative. ZME Science, Tudor Tarita, in Materials, News, Edited and reviewed by Mihai Andrei, April 4, 2025. https://www.zmescience.com/research/materials/future-windows-made-wood/ 

23)  A technique inspired by India that uses rice and egg whites leads a professor to develop transparent wood that imitates glass, but with advantages. CPG, Click Oil and Gas, Romario Pereira, 07/04/2025.  https://en.clickpetroleoegas.com.br/tecnica-inspirada-na-india-que-utiliza-arroz-e-clara-de-ovo-leva-professor-a-desenvolver-madeira-transparente-que-imita-o-vidro-mas-com-vantagens/  

24)  Making sturdy, semi-transparent wood with cheap, natural materials, 19, April, 2025. https://materialsscienceandengineering.tumblr.com/post/781291528428601344/making-sturdy-semi-transparent-wood-with-cheap 

25)  Creating Durable, Semi-Transparent Wood Using Affordable, Natural Materials. Bioengineer, September 6, 2025. https://bioengineer.org/creating-durable-semi-transparent-wood-using-affordable-natural-materials/ 

26)  Making sturdy, semi-transparent wood with cheap, natural materials. EurekAlert, American Association for the Advancement of Science (AAAS), March 2025. https://www.eurekalert.org/multimedia/1064717 

27)  Innovative Transparent Wood Offers Sustainable Plastic Substitute. Securities.io, Gaurav Roy, April 1, 2025. https://www.securities.io/innovative-transparent-wood-offers-sustainable-plastic-substitute/ 

28)  Transparent wood could replace glass: a new frontier in sustainable materials. Greenmemag.com, Ilaria Rosella Pagliaro, 03/05/2025. https://www.greenmemag.com/home-garden/transparent-wood-could-replace-glass-a-new-frontier-in-sustainable-materials/ 

29)  Incredible! Durable Wood as Transparent as Glass! Discover How. Glass Almanac, Sarah Johnson, April 17, 2025. https://glassalmanac.com/incredible-durable-wood-as-transparent-as-glass-discover-how/  

30)  Article in Marathi daily Maharashtra Times (a publication of the Times of India Group), Hemant Lagvankar, Science Communicator and Educational Consultant, April 21, 2025.  

31)  An interview for a possible demonstration on the show, Quite Interesting, a TV show for BBC2, A Teams interview with Manu Henriot, Senior Researcher, QI Ltd, June 13, 2025. 

32)  An interview request by a TV host of “Seeking Truth in News”, the most popular science TV program produced by Hunan TV, the most influential and highest rated TV station in China, Shanshan Wang, April 2, 2025, and May 13, 2025. 

33)  TEDxGateway Content Coordinator Shruti Chheda reached out to discuss a potential collaboration opportunity, both online and offline, for the 2025 edition of TEDxGateway at NCPA, Mumbai. A Teams interview with Oshin Bisht, Content and Research Lead, on August 15th, 2025, and submitted an Idea for a Possible Speaking Engagement for the TEDx Gateway Conference on August 25th, 2025. www.tedxgateway.com  

 34) Zoom Interview with WSB Radio. April 25, 2025.

 

Other Publications (Articles in Language other than English):

1) Baruah, B. স্বয়ংচালিত বাহন, কৃত্ৰিম বুদ্ধিমত্তা, আৰু অগ্ৰদুত ৰসায়নিক পদাৰ্থ, Anyayug 2021, August Issue, https://www.anyayug.com/p/swayangsalitajan-kritim-buddhimatta.html.

2) Baruah, B. নিখুঁত বড়িৰ ৰচনা আৰু কভিড-১৯ ঘটুৱা সম্ভৱনে? Anyayug 2021, September Issue, https://www.anyayug.com/p/blog-page_13.html.

3) Baruah, B. শেঁতা পৰা আলোক-সংকেত, Anyayug 2021, December Issue, https://www.anyayug.com/p/december-2021_96.html.

4) Baruah, B. ভাৰতবৰ্ষত জীনচৰ জন্ম, Anyayug 2022, January Issue, https://www.anyayug.com/p/jeans-article-january-2022.html. 

5) Baruah, B. বিজ্ঞান সকলোৰে বাবে হয়নে? Anyayug 2022, February Issue, https://www.anyayug.com/p/february-2022.html. 

6) Baruah, B. য়েল্ল'ষ্ট'ন্ ৰাষ্ট্ৰীয় উদ্যান: পৰ্যটন, পৰিস্থিতিতন্ত্ৰ, আৰু ভূতত্ত্ব, Anyayug 2022, March Issue, https://www.anyayug.com/p/blog-page_64.html.  

7) Baruah, B. হলৌ উঠিল টকৌ গছত, Anyayug 2022, April Issue, https://www.anyayug.com/p/april-2022_23.html.

8) Baruah, B. সমুদ্ৰ-মন্থন, কাৰ্বন ফুটপ্ৰিণ্ট, আৰু অনাবিষ্কৃত জীৱৰ সম্ভাৱ্য অৱলুপ্তি, Anyayug 2022, June Issue, https://www.anyayug.com/p/samudra-manthan-article-june-2022.html. 

9) Baruah, B. ধৃতৰাষ্ট্ৰৰ সঞ্জয় আৰু অক্ষমৰ জালুক কিংবা বৃদ্ধাৱস্থাৰ যন্ত্ৰমানৱ, Anyayug 2022, July Issue, https://www.anyayug.com/p/blog-page_51.html. 

10) Baruah, B. মেঘৰ আঁৰৰ যুঁজ আৰু ছিচলুনাৰ ৰণভূমি, Anyayug 2022, August Issue, https://www.anyayug.com/p/article-august-2022_22.html. 

11) Baruah, B. ক'ভিড-১৯ৰ বিষাণু বা ভাইৰাছৰ সংক্ৰমণ ক্ষমতা আৰু আপেক্ষিক আৰ্দ্ৰতা, Anyayug 2022, September Issue, https://www.anyayug.com/p/article-september-2022_27.html. 

12) Baruah, B. এপ্ৰেণ্টিচশ্বিপ বা শিক্ষানবিচি: দ্বৈত বৃত্তিগত প্ৰশিক্ষণ আৰু কাৰখানা-উন্মুখ প্ৰতিভাৰ বিকাশ, Anyayug 2022, October Issue, https://www.anyayug.com/p/article-october-2022.html. 

13) Baruah, B. হননহীন মঙহ অথবা চহ কৰা মঙহ,  Anyayug 2022, December Issue, https://www.anyayug.com/p/article-december-2022.html

14) Baruah, B. ডাইন'চৰ বোৰ শীতলৰক্তী আছিলনে? Anyayug 2023, February Issue, https://www.anyayug.com/p/article-february-2023_89.html

15) Baruah, B. বেটবাৰ্ড -  বাই’মিমেটিকছ  - ইক’ল’কেশ্ব্যন, Anyayug 2023, March Issue, https://www.anyayug.com/p/article-march-2023.html. 

16) Baruah, B. এগ্ৰিভ'ল্টেইক্স - ভূমিৰ যথাযথ ব্যৱহাৰ - ধাৰণক্ষম খাদ্য উৎপাদন, Anyayug 2023, April Issue, https://www.anyayug.com/p/article-science-april-2023.html

17) Baruah, B. নিউৰ'টেকন'ল'জী, Anyayug 2023, May Issue, https://www.anyayug.com/p/article-may-2023_27.html

18) Baruah, B. ট্ৰিনিটিৰ তেজস্ক্ৰিয় ফ'লআউট আৰু অ’পেনহাইমাৰ, Anyayug 2023, September Issue, https://www.anyayug.com/p/article-september-2023.html

19) Baruah, B. অন্ন, বস্ত্ৰ, আৰু বাসস্থান: অন্ন (১), Anyayug 2023, October Issue, https://www.anyayug.com/p/article-october-2023_26.html. 

20) Baruah, B. অন্ন, বস্ত্ৰ, আৰু বাসস্থান: বস্ত্ৰ (২) Anyayug 2023, November Issue, https://www.anyayug.com/p/article-november-2023_95.html

21) Baruah, B. অন্ন, বস্ত্ৰ, আৰু বাসস্থান: বাসস্থান (৩) Anyayug 2023, December Issue, https://www.anyayug.com/p/blog-page_56.html

22) Baruah, B. ভোজনৰ পতংগীকৰণ, ইতিহাস, আৰু ভৱিষ্যতৰ গ্ৰীণ প্ৰ’টিন Anyayug 2024, June Issue, https://www.anyayug.com/p/article-june-202.html

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