41324343PersonalKRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171WKP|Q15552677LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|00000001162758911264Basu, Bikramjit.KRNLKKRNLK|KAC202085501NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761J9UJ9U|987007322265605171LCLC|n 2008184078CAOONLCAOONL|ncf11529292DNBDNB|1212372212BNFBNF|16189184NKCNKC|ntk2010537673Bikramjit Basu Indian professorWKPWKP|Q15552677Bikramjit BasuISNIISNI|0000000116275891ba0yba0yfre0BasuBikramjitBNFBNF|16189184BNF|16189184CAOONL|ncf11529292NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171WKP|Q15552677LC|n 2008184078KRNLK|KAC202085501DNB|1212372212NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitKRNLKKRNLK|KAC202085501KRNLK|KAC202085501CAOONL|ncf11529292NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171LC|n 2008184078DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitlatJ9UJ9U|987007322265605171J9U|987007322265605171KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761WKP|Q15552677LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitDNBDNB|1212372212DNB|1212372212KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171LC|n 2008184078CAOONL|ncf11529292BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitLCLC|n 2008184078LC|n 2008184078KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171WKP|Q15552677CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitCAOONLCAOONL|ncf11529292CAOONL|ncf11529292KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171LC|n 2008184078DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, Bikramjitntk2010537673NKCNKC|ntk2010537673NKC|ntk2010537673KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184WKP|Q15552677ISNI|0000000116275891ISNI|0000000116275891Basu, BikramjitSUDOCSUDOC|139608761SUDOC|139608761KRNLK|KAC202085501NUKAT|n 2010090194J9U|987007322265605171WKP|Q15552677LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Basu, Bikramjit.NUKATNUKAT|n 2010090194NUKAT|n 2010090194KRNLK|KAC202085501SUDOC|139608761J9U|987007322265605171WKP|Q15552677LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891Bikramjit BasuISNIISNI|0000000116275891ISNI|0000000116275891KRNLK|KAC202085501NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171WKP|Q15552677LC|n 2008184078CAOONL|ncf11529292DNB|1212372212BNF|16189184NKC|ntk2010537673Bikramjit BasuIndian professorenWKPWKP|Q15552677WKP|Q15552677NUKAT|n 2010090194SUDOC|139608761J9U|987007322265605171LC|n 2008184078BNF|16189184NKC|ntk2010537673ISNI|0000000116275891ISNI|0000000116275891bBikramjit Basubioquímicu indiubikramjit basu bioquimicu indiuWKPWKP|Q15552677Bikramjit Basuwetenschapperbikramjit basu wetenschapperWKPWKP|Q15552677বিক্রমজিৎ বসুবকরমজৎ বসWKPWKP|Q15552677바수, 비크람지트바수 비크람지트KRNLKKRNLK|KAC202085501Kumar, Ashok (1938- ).LCLC|n 2008184078NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761ISNIISNI|0000000116275891BNFBNF|16189184Kalin, Mitjan (1967- ).LCLC|n 2008184078NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761ISNIISNI|0000000116275891NKCNKC|ntk2010537673Katti, Dhirendra S.NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761ISNIISNI|0000000116275891BNFBNF|16189184Balani, Kantesh.LCLC|n 2008184078NUKATNUKAT|n 2010090194ISNIISNI|0000000116275891NKCNKC|ntk2010537673ebrary, Inc.NKCNKC|ntk2010537673ISNIISNI|0000000116275891Wondrak, WolfgangDNBDNB|1212372212Voorde, Marcel H. ˜van deœ 1936-DNBDNB|1212372212Kumar, B. Venkata Manoj.LCLC|n 2008184078NUKATNUKAT|n 2010090194John Wiley & Sons.NUKATNUKAT|n 2010090194ISNIISNI|0000000116275891American Ceramic Society.NKCNKC|ntk2010537673NUKATNUKAT|n 2010090194ISNIISNI|0000000116275891Wiley-American Ceramic Society/John Wiley & Sons, Inc.LCLC|n 2008184078NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761ISNIISNI|0000000116275891WileyLCLC|n 2008184078NKCNKC|ntk2010537673SUDOCSUDOC|139608761ISNIISNI|0000000116275891BNFBNF|16189184John Wiley & SonsNUKATNUKAT|n 2010090194ISNIISNI|0000000116275891DNBDNB|1212372212De GruyterDNBDNB|1212372212ebraryNKCNKC|ntk2010537673ISNIISNI|0000000116275891Springer Singapore : Imprint: SpringerLCLC|n 2008184078DNBDNB|1212372212MyiLibrarySUDOCSUDOC|139608761ISNIISNI|0000000116275891Cambridge University PressLCLC|n 2008184078NUKATNUKAT|n 2010090194CRC PressLCLC|n 200818407819500lived200201amNUKATNUKAT|n 2010090194SUDOCSUDOC|139608761LCLC|n 2008184078DNBDNB|1212372212BNFBNF|16189184NKCNKC|ntk2010537673mmSUDOCSUDOC|139608761340BNFBNF|16189184autDNBDNB|1212372212directeur de la publicationSUDOCSUDOC|139608761editeur scientifiqueSUDOCSUDOC|139608761redNUKATNUKAT|n 2010090194verfasserDNBDNB|12123722129780470193402LCLC|n 2008184078NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761BNFBNF|161891849789811030598SUDOCSUDOC|139608761DNBDNB|12123722129789811030178LCLC|n 2008184078SUDOCSUDOC|1396087619781119538837LCLC|n 2008184078NUKATNUKAT|n 20100901949781119538400LCLC|n 2008184078NUKATNUKAT|n 20100901949781119538387LCLC|n 2008184078NUKATNUKAT|n 20100901949781118021644SUDOCSUDOC|139608761DNBDNB|12123722129781108415156LCLC|n 2008184078NUKATNUKAT|n 20100901949780470497111LCLC|n 2008184078NUKATNUKAT|n 20100901949789811569180SUDOCSUDOC|1396087619781000027419LCLC|n 2008184078USLCLC|n 2008184078NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761NKCNKC|ntk2010537673BNFBNF|16189184DEDNBDNB|1212372212SGLCLC|n 2008184078SUDOCSUDOC|139608761GBNUKATNUKAT|n 2010090194engBNFINWKPDNBISNI인도(국명)[印度]KRNLKXXBNF재료 공학材料工学KRNLK야금학KRNLK금속金属KRNLK교수 대학 敎授KRNLKhttp://orcid.org/0000-0002-9154-5553WKPWKP|Q15552677NKCNKC|ntk2010537673https://en.wikipedia.org/wiki/Bikramjit_BasuWKPWKP|Q15552677CAOONLCAOONL|ncf11529292NUKATNUKAT|n 2010090194SUDOCSUDOC|139608761J9UJ9U|987007322265605171LCLC|n 2008184078DNBDNB|1212372212BNFBNF|16189184WKPWKP|Q15552677Advanced biomaterials : fundamentals, processing and applicationsLCLC|n 2008184078NUKATNUKAT|n 2010090194DNBDNB|1212372212NKCNKC|ntk2010537673Advanced Structural CeramicsLCLC|n 2008184078SUDOCSUDOC|139608761DNBDNB|1212372212Biomaterials for musculoskeletal regeneration : conceptsSUDOCSUDOC|139608761Biomaterials Science and Implants : Status, Challenges and RecommendationsLCLC|n 2008184078NUKATNUKAT|n 2010090194Biomaterials science and tissue engineering : principles and methodsWKPWKP|Q15552677Correlation between phase evolution, mechanical properties and instrumented indentation response of TiB2-based ceramicsWKPWKP|Q15552677Cytocompatibility property evaluation of gas pressure sintered SiAlON–SiC composites with L929 fibroblast cells and Saos-2 osteoblast-like cellsWKPWKP|Q15552677Differential viability response of prokaryotes and eukaryotes to high strength pulsed magnetic stimuliWKPWKP|Q15552677Does Thermal Conductivity Play a Role in Sliding Wear of Metals in Cryogenic Environment?WKPWKP|Q15552677Finite Element Analysis to Probe the Influence of Acetabular Shell Design, Liner Material, and Subject Parameters on Biomechanical Response in Periprosthetic BoneWKPWKP|Q15552677Flow cytometry analysis of human fetal osteoblast fate processes on spark plasma sintered hydroxyapatite-titanium biocomposites.WKPWKP|Q15552677The Foreign Body Response DemystifiedWKPWKP|Q15552677Fretting wear behaviour of hydroxyapatite–titanium composites in simulated body fluid, supplemented with 5 g l−1 bovine serum albuminWKPWKP|Q15552677Fretting wear properties of hydroxyapatite, alumina containing high density polyethylene biocomposites against zirconia.LCLC|n 2008184078NUKATNUKAT|n 2010090194Friction and wear of ceramics : principles and case studiesWKPWKP|Q15552677Gene expression in osteoblast cells treated with submicron to nanometer hydroxyapatite-mullite eluate particlesWKPWKP|Q15552677HDPE/UHMWPE hybrid nanocomposites with surface functionalized graphene oxide towards improved strength and cytocompatibilityWKPWKP|Q15552677In vitro corrosion and mineralization of novel Ti–Si–C alloyWKPWKP|Q15552677In vitro cytocompatibility assessment of amorphous carbon structures using neuroblastoma and Schwann cellsWKPWKP|Q15552677In vitro dissolution behavior of SiO2-MgO-Al2O 3-K2O-B2O3-F glass-ceramic systemWKPWKP|Q15552677In vitro osteogenic cell proliferation, mineralization, and in vivo osseointegration of injection molded high-density polyethylene-based hybrid composites in rabbit animal model.WKPWKP|Q15552677In vivo response of novel calcium phosphate-mullite composites: results up to 12 weeks of implantationWKPWKP|Q15552677Inducing apatite pre-layer on titanium surface through hydrothermal processing for osseointegrationWKPWKP|Q15552677Inhibitory effect of direct electric field and HA-ZnO composites on S. aureus biofilm formation.WKPWKP|Q15552677Intracellular reactive oxidative stress, cell proliferation and apoptosis of Schwann cells on carbon nanofibrous substrates.WKPWKP|Q15552677Long-term sustained release of salicylic acid from cross-linked biodegradable polyester induces a reduced foreign body response in mice.WKPWKP|Q15552677Low temperature additive manufacturing of three dimensional scaffolds for bone-tissue engineering applications: Processing related challenges and property assessmentWKPWKP|Q15552677Magnetic field assisted stem cell differentiation - role of substrate magnetization in osteogenesisWKPWKP|Q15552677Microstructure and compression properties of 3D powder printed Ti-6Al-4V scaffolds with designed porosity: Experimental and computational analysis.WKPWKP|Q15552677Microstructure-mechanical-tribological property correlation of multistage spark plasma sintered tetragonal ZrO2WKPWKP|Q15552677Moderate intensity static magnetic field has bactericidal effect on E. coli and S. epidermidis on sintered hydroxyapatite.WKPWKP|Q15552677Modulated in Vitro Biocompatibility of a Unique Cross-Linked Salicylic Acid-Poly(ε-caprolactone)-Based Biodegradable PolymerWKPWKP|Q15552677Modulation of Protein Adsorption and Cell Proliferation on Polyethylene Immobilized Graphene Oxide Reinforced HDPE Bionanocomposites.WKPWKP|Q15552677Nanomaterials Processed by Spark Plasma SinteringDNBDNB|1212372212Nanoscience and nanotechnology advances and developments in nano-sized materialsWKPWKP|Q15552677Neurogenesis-on-Chip: Electric field modulated transdifferentiation of human mesenchymal stem cell and mouse muscle precursor cell cocultureWKPWKP|Q15552677On the development of two characteristically different crystal morphology in SiO(2)-MgO-Al (2)O (3)-K (2)O-B (2)O (3)-F glass-ceramic systemWKPWKP|Q15552677On the toughness enhancement in hydroxyapatite-based compositesWKPWKP|Q15552677Optically transparent polymer devices for in situ assessment of cell electroporationWKPWKP|Q15552677Optimization of electrical stimulation parameters for enhanced cell proliferation on biomaterial surfacesWKPWKP|Q15552677Periprosthetic biomechanical response towards dental implants, with functional gradation, for single/multiple dental lossWKPWKP|Q15552677Phase assemblage study and cytocompatibility property of heat treated potassium magnesium phosphate-silicate ceramicsWKPWKP|Q15552677Physical and cytocompatibility properties of bioactive glass-polyvinyl alcohol-sodium alginate biocomposite foams prepared via sol-gel processing for trabecular bone regenerationWKPWKP|Q15552677Pigmented Silk Nanofibrous Composite for Skeletal Muscle Tissue Engineering.WKPWKP|Q15552677Poly(lactic–co-glycolic acid): Carbon nanofiber composites for myocardial tissue engineering applicationsWKPWKP|Q15552677Probing Ink-Powder Interactions During 3D Binderjet Printing Using Time Resolved X-Ray ImagingWKPWKP|Q15552677Pulsed electric field mediated in vitro cellular response of fibroblast and osteoblast-like cells on conducting austenitic stainless steel substrateWKPWKP|Q15552677Recent developments on WC-based bulk compositesWKPWKP|Q15552677SiC<sub><i>x</i></sub>N<sub><i>y</i></sub>O<sub><i>z</i></sub> Coatings Enhance Endothelialization and Bactericidal activity and Reduce Blood Cell ActivationWKPWKP|Q15552677Simultaneous Exfoliation and Functionalization of 2H-MoS by Thiolated Surfactants: Applications in Enhanced Antibacterial ActivityWKPWKP|Q15552677Sintering, microstructure, mechanical, and antimicrobial properties of HAp-ZnO biocomposites.WKPWKP|Q15552677Spark Plasma-Sintered WC-ZrO2-Co Nanocomposites with High Fracture Toughness and StrengthWKPWKP|Q15552677Spark plasma sintering of novel ZrB2–SiC–TiSi2 composites with better mechanical propertiesWKPWKP|Q15552677Stiffness- and wettability-dependent myoblast cell compatibility of transparent poly(vinyl alcohol) hydrogels.WKPWKP|Q15552677Strength reliability and in vitro degradation of three-dimensional powder printed strontium-substituted magnesium phosphate scaffoldsWKPWKP|Q15552677Structure-Property Relationship in an Electroconductive Hydroxyapatite-Titanium Disilicide CompositeWKPWKP|Q15552677Structure, tensile properties and cytotoxicity assessment of sebacic acid based biodegradable polyesters with ricinoleic acidWKPWKP|Q15552677Surface-Functionalized Silk Fibroin Films as a Platform To Guide Neuron-like Differentiation of Human Mesenchymal Stem Cells.WKPWKP|Q15552677Synergistic effect of static magnetic field and HA-Fe3O4 magnetic composites on viability of S. aureus and E. coli bacteriaWKPWKP|Q15552677Synergy of substrate conductivity and intermittent electrical stimulation towards osteogenic differentiation of human mesenchymal stem cells.WKPWKP|Q15552677Titanium DiborideWKPWKP|Q15552677Tribological investigation of novel HDPE-HAp-Al2O3 hybrid biocomposites against steel under dry and simulated body fluid condition.LCLC|n 2008184078NKCNKC|ntk2010537673SUDOCSUDOC|139608761DNBDNB|1212372212Tribology of ceramics and composites : a materials science perspectiveWKPWKP|Q15552677Tunable Substrate Functionalities Direct Stem Cell Fate toward Electrophysiologically Distinguishable Neuron-like and Glial-like CellsWKPWKP|Q15552677UHMWPE-MWCNT-nHA based hybrid trilayer nanobiocomposite: Processing approach, physical properties, stem/bone cell functionality, and blood compatibilityWKPWKP|Q15552677Ultra High Temperature CeramicsWKPWKP|Q15552677Understanding Influence of MoSi2 Addition (5 Weight Percent) on Tribological Properties of TiB2WKPWKP|Q15552677Unraveling the mechanistic effects of electric field stimulation towards directing stem cell fate and function: A tissue engineering perspectiveWKPWKP|Q15552677Vertical electric field stimulated neural cell functionality on porous amorphous carbon electrodesWKPWKP|Q15552677Zirconia toughened mica glass ceramics for dental restorations.WKPWKP|Q15552677ZrO2-toughened Al2O3-based near-net shaped femoral head: Unique fabrication approach, 3D microstructure, burst strength and muscle cell responseWKPWKP|Q15552677ZrO2-toughened Al2O3 composites with better fracture and wear resistance properties2024-10-27T04:16:46.766425+00:00
