Theoretical study of the electronic and optical properties of a composite formed by the zeolite NaA and a magnetite cluster

• Joel Antúnez-García,
• Roberto Núñez-González,
• Vitalii Petranovskii,
• H’Linh Hmok,
• Armando Reyes-Serrato,
• Fabian N. Murrieta-Rico,
• Mufei Xiao and
• Jonathan Zamora

Beilstein J. Nanotechnol. 2025, 16, 44–53, doi:10.3762/bjnano.16.5

• characteristics of zeolites depend largely on the chemical composition of the framework, specifically the Si/Al ratio [1][2]. These characteristics make zeolites highly appealing for a wide range of applications, including the production of fine chemicals [3][4], gas separation [5][6][7], ion exchange [8][9][10

• . In essence, we compared the energy difference (after optimization) between housing the cluster in the α-cage and the β-cage (see [54][57] for cage identification). The results demonstrated that housing the cluster in the α-cage is energetically more favorable (Figure 2). This choice defined the

• of the isolated cluster. Given the observed structural modifications of the cluster when integrated into the zeolite (Figure 2), it is expected that its electronic properties would also undergo changes. Figure 4a displays the total density of states (TDOS) for the NaA zeolite, featuring a primary

Precursor sticking coefficient determination from indented deposits fabricated by electron beam induced deposition

• Alexander Kuprava and
• Michael Huth

Beilstein J. Nanotechnol. 2025, 16, 35–43, doi:10.3762/bjnano.16.4

• the center region of an intentionally defocused electron beam. We employ the method to determine the precursor sticking coefficient for bis(benzene)chromium, Cr(C6H6)2, and trimethyl(methylcyclopentadienyl)platinum(IV), Me3CpPtMe, and find a value of about 10−2 for both precursors, which is

• is needed and can be obtained based on a simulation of the FEBID process using the so-called continuum model that can be of great assistance for the nanofabrication process optimization [2][3]. Here again, sufficiently accurate knowledge of the values for the model-dependent set of precursor

• region has two conditions: 1) The beam current has to be high enough to cause significant depletion and thus induce diffusion. Low irradiative depletion would shift the balance towards the RRL regime. 2) The precursor has to exhibit a certain degree of diffusivity in order to guarantee a noticeable mass

Bioinspired nanofilament coatings for scale reduction on steel

• Siad Dahir Ali,
• Mette Heidemann Rasmussen,
• Jacopo Catalano,
• Christian Husum Frederiksen and
• Tobias Weidner

Beilstein J. Nanotechnol. 2025, 16, 25–34, doi:10.3762/bjnano.16.3

• moisture control and water interaction [1][2]. The structure and chemistry of insect skin are finely tuned to navigate these challenges, showcasing a sophisticated natural adaptation to efficiently repel water [3]. Springtails have mastered this capability using micro- and nanostructured skin surfaces

A nanocarrier containing carboxylic and histamine groups with dual action: acetylcholine hydrolysis and antidote atropine delivery

• Elina E. Mansurova,
• Andrey A. Maslennikov,
• Anna P. Lyubina,
• Alexandra D. Voloshina,
• Irek R. Nizameev,
• Marsil K. Kadirov,
• Anzhela A. Mikhailova,
• Polina V. Mikshina,
• Albina Y. Ziganshina and
• Igor S. Antipin

Beilstein J. Nanotechnol. 2025, 16, 11–24, doi:10.3762/bjnano.16.2

• Technological University, 68, K. Marx str., Kazan 420015, Russia Kazan Institute of Biochemistry and Biophysics FRC Kazan Scientific Centre, Russian Academy of Sciences, Lobachevsky str. 2, Kazan 420111, Russia 10.3762/bjnano.16.2 Abstract Disruption of cholinesterases and, as a consequence, increased levels

• , vomiting, and other serious issues [1]. ACh overproduction usually results from a malfunction of the cholinesterase enzyme caused by poisoning or medication [2][3]. Drug dosage regulation can greatly lower cholinergic toxicity [4], but the risks associated with poisoning are far higher. Poisons cause

• react with BA to form boronate esters through cross-linking (Scheme 1). To synthesize p(Hist-CA), 4 mL of BA solution (1.25 mM) in PB, pH 8.5, and 7.3 μL of triolein (TO) were added to a mixture of Hist-RA (2 mM) and CA-RA (4.4 mM) in 1 mL of water. The mixture was vortexed for 1.5 min until an emulsion

Orientation-dependent photonic bandgaps in gold-dust weevil scales and their titania bioreplicates

• Norma Salvadores Farran,
• Limin Wang,
• Primoz Pirih and
• Bodo D. Wilts

Beilstein J. Nanotechnol. 2025, 16, 1–10, doi:10.3762/bjnano.16.1

• achieved when light interacts with a material having a periodically changing refractive index. Interference produces structural colors that may be quite saturated and angle-dependent (iridescent). Structurally colored materials feature refractive index variations in one, two, or three dimensions [1][2]. In

• scales are composed of chitin and an undetermined short-wavelength absorbing pigment. To investigate whether the origin of the coloration is structural, we examined the external and internal structure of intact and plasma-etched elytral scales using scanning electron microscopy (Figure 2). Using a

• was roughly {111}-oriented. SEM images shown in Figure 4d,e confirmed the successful replication with an increased fill fraction, compared to the original material (Figure 2); the two fill fractions, f, were expected to be conserved but exchanged (i.e., titania f ≈ 0.56 and void f ≈ 0.44). The

Mechanistic insights into endosomal escape by sodium oleate-modified liposomes

• Ebrahim Sadaqa,
• Satrialdi,
• Fransiska Kurniawan and
• Diky Mudhakir

Beilstein J. Nanotechnol. 2024, 15, 1667–1685, doi:10.3762/bjnano.15.131

• are frequently confined within endosomes, where they risk degradation in lysosomes or expulsion back to the cell surface. This endosomal barrier critically impedes the effective release of encapsulated drugs into the cytosol, limiting their therapeutic impact [2][3]. Consequently, facilitating

• was investigated using different endocytic pathway inhibitors (Figure 2). For Unmodified-Lipo (Figure 2a,d), sucrose, which inhibits clathrin-mediated endocytosis, significantly reduced fluorescence intensity (p < 0.001), indicating that clathrin-mediated endocytosis is a primary pathway. Filipin, an

• Figure 3 illustrates the assessment of endosomal escape efficiency for Unmodified-Lipo, SO-Lipo, and AUR-Lipo after 2 and 6 h of incubation. The colocalization of the DiD-labeled liposomes (red) with LysoTracker-stained lysosomes (green) is a key indicator of whether the liposomes remain trapped within

Attempts to preserve and visualize protein corona on the surface of biological nanoparticles in blood serum using photomodification

• Julia E. Poletaeva,
• Anastasiya V. Tupitsyna,
• Alina E. Grigor’eva,
• Ilya S. Dovydenko and
• Elena I. Ryabchikova

Beilstein J. Nanotechnol. 2024, 15, 1654–1666, doi:10.3762/bjnano.15.130

• efforts of many researchers are aimed at finding approaches and methods for “managing” the composition of the protein corona, which, in particular, can provide the possibility of targeted delivery of drugs [1][2][3]. The protein corona is formed by two layers on any NP, called the hard and soft coronas

• photomodifier, the choice of which was described in detail and justified earlier. The best option was the photoactivatable cross-linker 4-azido-N-[3-[3-(2,5-dioxopyrrol-1-yl)propanoylamino]propyl]-2-nitrobenzamide (PACL), which was synthesized in the Laboratory of Organic Synthesis (ICBFM SB RAS, Novosibirsk

• (photomodification) could result in the fixation of serum proteins originally bound to the bio-NPs’ surface, that is, the fixation of the “natural” protein corona. We did not isolate bio-NPs beforehand, instead we worked with solutions of native sera. Figure 2 shows the workflow of our experiments for obtaining bio

Fabrication of hafnium-based nanoparticles and nanostructures using picosecond laser ablation

• Abhishek Das,
• Mangababu Akkanaboina,
• Jagannath Rathod,
• R. Sai Prasad Goud,
• Kanaka Ravi Kumar,
• Raghu C. Reddy,
• Ratheesh Ravendran,
• Katia Vutova,
• S. V. S. Nageswara Rao and
• Venugopal Rao Soma

Beilstein J. Nanotechnol. 2024, 15, 1639–1653, doi:10.3762/bjnano.15.129

• optical properties [1][2][3][4]. Hf and its alloys are used in nuclear reactors because of their large neutron absorption cross sections and high melting points [5]. They are also used in submarines because of their corrosion resistance [6][7]. The high refractoriness of some Hf compounds [2][4] allows

• them to be used in high-temperature alloys and ceramics. Hf compounds are widely used in microelectronics because of their high dielectricity values [2]. In recent years, NPs derived from Hf have gained significant interest in biomedical fields because of their superior optical and thermal properties

• . These Hf sponges, cut and polished to 10 mm × 10 mm × 2 mm, were used as ablation targets. The pristine target had the crystal structure of hexagonal HfO0.25, as confirmed by X-ray diffraction (XRD) data (see Figure 1a). The elemental composition (Hf: 73.68%, O: 26.32%) was determined by energy

Heterogeneous reactions in a HFCVD reactor: simulation using a 2D model

• Xochitl Aleyda Morán Martínez,
• José Alberto Luna López,
• Zaira Jocelyn Hernández Simón,
• Gabriel Omar Mendoza Conde,
• José Álvaro David Hernández de Luz and
• Godofredo García Salgado

Beilstein J. Nanotechnol. 2024, 15, 1627–1638, doi:10.3762/bjnano.15.128

• ratio x = [O]/[Si], which is determined by controlling key parameters in the deposition process [2]. This ratio determines optical and electrical properties such as bandgap energy, absorption coefficient, photoluminescence, refractive index, and electrical conductivity [3]. SiOx cannot only be obtained

• atmospheric pressure. Table 1 summarizes the values of the parameters and dimensions complementary to the experimental conditions in the reactor for the deposition of SRO films previously described and depicted below in Figure 2 [24], as well as the corresponding boundary conditions. Theoretical and Numerical

• reactants, and x, y,… are the coefficients of the products. In the case of a set of reactions, the reaction rates rj (mol·m−3·s−1) can be described by the law of mass action given by Equation 2: where and refer to the forward and reverse rate constants, respectively. The concentration of species i is

Biomimetic nanocarriers: integrating natural functions for advanced therapeutic applications

• Hugo Felix Perini,
• Beatriz Sodré Matos,
• Carlo José Freire de Oliveira and
• Marcos Vinicius da Silva

Beilstein J. Nanotechnol. 2024, 15, 1619–1626, doi:10.3762/bjnano.15.127

• nanotechnology, introduced by Richard Feynman in 1959 during an American Physical Society meeting [1][2], involves the manipulation of matter at the atomic level. The term "nanometer" was initially proposed by Richard Zsigmondy in the context of measuring gold colloids. Nanotechnology is generally defined as the

• manipulation of matter on a nanoscale, typically ranging from 1 to 100 nm [2]. At this scale, nanoparticles can effectively interact with DNA and protein molecules [3][4]. Matter can exhibit distinct physical, chemical, and biological properties at the nanoscale compared to the macroscale, with significant

• -described for nanoparticles, and this process entails three steps: obtaining membrane-derived vesicles from a cellular source (1); generating the nanoparticles (2); and fusing the vesicles with the particles (3) [34][35][36][37]. Obtaining membrane vesicles requires the lysis of donor cells, necessitating

Natural nanofibers embedded in the seed mucilage envelope: composite hydrogels with specific adhesive and frictional properties

• Agnieszka Kreitschitz and
• Stanislav N. Gorb

Beilstein J. Nanotechnol. 2024, 15, 1603–1618, doi:10.3762/bjnano.15.126

• hydrophilic, three-dimensional (3D), polymeric networks able to absorb huge amounts of water [1][2][3]. This term refers perfectly to the mucilage envelope produced by many fruits and seeds (diaspores) of diverse plant taxa [4][5][6][7][8][9]. Mucilage is considered as a natural hydrogel and shares specific

• features with synthetic hydrogels [2][9][10][11]. Hydrogels are 3D networks of polymers (i.e., polysaccharides in plant seeds) interacting via chemical bonds (ionic and covalent), physical interactions (hydrogen bonds), or van der Waals forces [3][11][12]. The ability to produce the mucilage envelope is a

• ability to accumulate a large amount of water [2][6][16][23]. This is connected to many ecological advantages for the diaspores. The mucilage supports seed germination, dispersal, and various interactions with other organisms. It protects diaspores against digestion, pathogens, harvesting by ants, and

Liver-targeting iron oxide nanoparticles and their complexes with plant extracts for biocompatibility

• Shushanik A. Kazaryan,
• Seda A. Oganian,
• Gayane S. Vardanyan,
• Anatolie S. Sidorenko and
• Ashkhen A. Hovhannisyan

Beilstein J. Nanotechnol. 2024, 15, 1593–1602, doi:10.3762/bjnano.15.125

• Biochemistry, Koryun St 2, Yerevan, Armenia Ghitu Institute of Electronic Engineering and Nanotechnologies of Technical University of Moldova, Chisinau, Moldova 10.3762/bjnano.15.125 Abstract Thanks to their simple synthesis, controlled physical properties, and minimal toxicity, iron oxide nanoparticles

• , biochemistry, biophysics, and other disciplines within biology and medicine [1][2][3][4][5]. The development of nanotechnology has provided resources for various applications in the medical field, leading to significant advances in diagnosis, biological detection, therapy, and drug delivery [6][7][8][9]. An

• particles have been identified as 80–90% in the liver, 5–8% in the spleen, and 1–2% in the bone marrow [30]. One of the major organs where nanoparticles are likely to accumulate, depending on the route of administration, is the liver [31][32][33], where Kupffer cells can quickly uptake large nanoparticles

Facile synthesis of size-tunable L-carnosine-capped silver nanoparticles and their role in metal ion sensing and catalytic degradation of p-nitrophenol

• Akash Kumar,
• Ridhima Chadha,
• Abhishek Das,
• Nandita Maiti and
• Rayavarapu Raja Gopal

Beilstein J. Nanotechnol. 2024, 15, 1576–1592, doi:10.3762/bjnano.15.124

• biomagnification [1]. Similarly, organic pollutants such as p-nitrophenol (P-NP), from agricultural and industrial processes, are of significant concern because of their toxicity and resistance to degradation [2]. Consequently, detection and removal of these contaminants have become crucial for environmental

• ), 1 mL AgNO3 (0.01 M), and 2 mL NaBH4 (0.001 M). The term “ʟ-car-AgNPs” is used throughout the article to refer to the synthesized silver nanoparticles collectively. Furthermore, nanopowders of the samples were prepared using 1 M NaCl solution via the precipitation method, and the obtained precipitate

• -aminophenol (P-AP) in the presence of nanoparticle catalyst and NaBH4. All catalysis experiments were performed at RT in a 3.5 mL quartz cuvette. The reagents were introduced in the sequence of 2 mL P-NP (0.25 mM or 1 mM), 1 mL of NaBH4 (100 mM), and 50 μL of ʟ-carnosine-capped AgNPs (1 ± 0.2 OD). The

Green synthesis of silver nanoparticles derived from algae and their larvicidal properties to control Aedes aegypti

• Matheus Alves Siqueira de Assunção,
• Douglas Dourado,
• Daiane Rodrigues dos Santos,
• Gabriel Bezerra Faierstein,
• Mara Elga Medeiros Braga,
• Severino Alves Junior,
• Rosângela Maria Rodrigues Barbosa,
• Herminio José Cipriano de Sousa and
• Fábio Rocha Formiga

Beilstein J. Nanotechnol. 2024, 15, 1566–1575, doi:10.3762/bjnano.15.123

• the bite of hematophagous arthropods. Mosquitoes are the most important vectors of arboviroses [1], although many are maintained by ticks [2], phlebotomines [3], and other arthropods [4]. Arboviroses represent a major public health concern in tropical and sub-tropical regions of the world [5]. Aedes

• . These compounds act by reducing Ag+ ions to Ag0 and stabilize nanoparticles by capping [58] (Figure 2). Larvicidal activity of AgNPs against Aedes aegypti Aedes aegypti, also known as the dengue mosquito, is a vector of important arboviruses, including Dengue, Zika, Chikungunya and Yellow Fever [6][59

• nanoparticles in controlling vector mosquitoes [62]. AgNPs synthesized from seaweed have been investigated as a vector control strategy based on their larvicidal properties. Table 2 summarizes data from bioassays with AgNPs synthesized from different species of seaweed against A. aegypti larvae. The mechanism

Ultrablack color in velvet ant cuticle

• Vinicius Marques Lopez,
• Wencke Krings,
• Juliana Reis Machado,
• Stanislav Gorb and
• Rhainer Guillermo-Ferreira

Beilstein J. Nanotechnol. 2024, 15, 1554–1565, doi:10.3762/bjnano.15.122

• risen considerable interest in recent years because of its potential applications in various fields, including optics, camouflage, and solar energy harvesting [1][2]. These colors are characterized by their ability to reflect an exceptionally low amount of visible light. Inspired by several biological

• ]. Distinguished by its black integument adorned with contrasting patterns of black and white setae along its body (Figure 2), this species exhibits behavior akin to other females of the family. Frequently observed walking on exposed sandy soil, often in aggregations of bees (personal observation), T. bifurca also

• ]. For the thermal images, a velvet ant specimen was carefully positioned on a polystyrene plate, serving as a thermal insulator, and covered with a layer of sand measuring 2 cm in thickness. Using a Fluke TiS75+ Thermal Camera, thermal images were captured before, during, and after a controlled heating

The round-robin approach applied to nanoinformatics: consensus prediction of nanomaterials zeta potential

• Dimitra-Danai Varsou,
• Arkaprava Banerjee,
• Joyita Roy,
• Kunal Roy,
• Giannis Savvas,
• Haralambos Sarimveis,
• Ewelina Wyrzykowska,
• Mateusz Balicki,
• Tomasz Puzyn,
• Georgia Melagraki,
• Iseult Lynch and
• Antreas Afantitis

Beilstein J. Nanotechnol. 2024, 15, 1536–1553, doi:10.3762/bjnano.15.121

• effects. The integration of in silico new approach methodologies (NAMs) within the area of nanotechnology has created a plethora of possibilities for the assessment of NM properties and toxicity to support and/or substitute traditional experimental methodologies [2][3]. The field of nanoinformatics covers

• NMs and accelerate regulatory decision-making procedures [2][5][13]. An IATA scheme for the prediction of the short-term regional lung-deposited dose of inhaled inorganic NMs in humans following acute exposure and the longer-term NM biodistribution after inhalation, has already been presented [14

• . These metrics collectively provide a comprehensive assessment of model accuracy and reliability. The mean absolute error (MAE, Equation 1) and the root mean squared error (RMSE, Equation 2) were used to evaluate the accuracy of the models applied on both train and test sets. MAE measures the average

Electrochemical nanostructured CuBTC/FeBTC MOF composite sensor for enrofloxacin detection

• Thi Kim Ngan Nguyen,
• Tien Dat Doan,
• Huy Hieu Luu,
• Hoang Anh Nguyen,
• Thi Thu Ha Vu,
• Quang Hai Tran,
• Ha Tran Nguyen,
• Thanh Binh Dang,
• Thi Hai Yen Pham and
• Mai Ha Hoang

Beilstein J. Nanotechnol. 2024, 15, 1522–1535, doi:10.3762/bjnano.15.120

• extensively used in livestock and aquaculture as an antibacterial agent, showing high activity against both Gram-negative and Gram-positive bacteria [1][2]. ENR, like other fluoroquinolones, is used to treat susceptible bacteria responsible for infections of the skin and soft tissue. The overuse of ENR causes

• -based materials have been extensively studied [12][25][26][27][28]. A sensitive and simplified electrochemical sensor using a Cu3(BTC)2-modified carbon paste electrode for detecting 2,4-dichlorophenol was reported by Dong and his group [29]. Owing to the large specific surface area, high absorption

• capacity, and an acceptable efficacy of the electron transfer, Cu3(BTC)2 exhibited a good sensitivity to 2,4-dichlorophenol in the range from 0.04 to 1.00 μM with a limit of detection (LOD) of 9 nM in differential pulse voltammetry measurements. Moreover, the combination of metal oxides and MOFs showed better

Integrating high-performance computing, machine learning, data management workflows, and infrastructures for multiscale simulations and nanomaterials technologies

• Fabio Le Piane,
• Mario Vozza,
• Matteo Baldoni and
• Francesco Mercuri

Beilstein J. Nanotechnol. 2024, 15, 1498–1521, doi:10.3762/bjnano.15.119

• performance of materials before they are synthesized [1][2][3]. This approach enables the discovery of materials with, for example, improved mechanical strength, enhanced thermal conductivity, superior electrical properties, or other tailored characteristics. Simulations provide crucial insights at different

• technologies and a potential resulting workflow is depicted in Figure 2. The implementation of digital strategies for materials/nanomaterials development faces several key challenges that must be addressed for successful integration. One of the main issues is the availability and quality of data. Digital

Polymer lipid hybrid nanoparticles for phytochemical delivery: challenges, progress, and future prospects

• Iqra Rahat,
• Pooja Yadav,
• Aditi Singhal,
• Mohammad Fareed,
• Jaganathan Raja Purushothaman,
• Mohammed Aslam,
• Raju Balaji,
• Sonali Patil-Shinde and
• Md. Rizwanullah

Beilstein J. Nanotechnol. 2024, 15, 1473–1497, doi:10.3762/bjnano.15.118

• involved in carcinogenic pathways, including Bcl-2, BAX, NF-κB, and mTOR, revealing significant outcomes for APN-PLHNPs. Overall, encapsulating APN in PLHNPs represents a promising approach to enhancing the therapeutic efficacy of APN against various diseases. Isoliquiritigenin Isoliquiritigenin (IQN) is a

• [2][3]. Although they are not essential nutrients like vitamins and minerals, phytochemicals play a crucial role in maintaining health and preventing disease. These compounds are broadly categorized into several classes, including alkaloids, flavonoids, phenolic acids, terpenoids, and glycosides

• ]. Once the PLHNPs are synthesized, their surface can be modified through various strategies. Figure 2 illustrates a comparison between conventional PLHNPs and surface-modified PLHNPs. The most common approach is the attachment of targeting ligands onto the PLHNPs’ surface. These ligands can include

Effect of radiation-induced vacancy saturation on the first-order phase transformation in nanoparticles: insights from a model

• Aram Shirinyan and
• Yuriy Bilogorodskyy

Beilstein J. Nanotechnol. 2024, 15, 1453–1472, doi:10.3762/bjnano.15.117

• , and cavities [1][2]. Experimental studies on Pd have shown that the defect density generally increases with grain size; in grains smaller than 30 nm, no defects were observed [3], suggesting that large defects (clusters and dislocations) do not exist in small nanoparticles. One possible explanation is

• based on the fact that the movement of dislocations is impeded by particle surfaces (grain boundaries) quite rapidly. For example, a transmission electron microscopy study (irradiation with Kr ions at 1 MeV at room temperature and an average defect generation rate of about 2 × 10−3 dpa·s−1) showed that

• cubic (bcc) Fe lattice it is about 1.5–2.0 eV; the energy of interstitial formation ranges from 2 to 4 eV. It is accepted that interstitials are mobile at room (low) temperature because of significantly less migration energies of 0.01–0.50 eV, whereas vacancies are mobile at very high temperatures

Strain-induced bandgap engineering in 2D ψ-graphene materials: a first-principles study

• Kamal Kumar,
• Nora H. de Leeuw,
• Jost Adam and
• Abhishek Kumar Mishra

Beilstein J. Nanotechnol. 2024, 15, 1440–1452, doi:10.3762/bjnano.15.116

• pliable displays and as strengthening material in composites [2][3][4]. It has also gained considerable attention among researchers for its application in hydrogen storage, owing to its good adsorption capacity and controllable storage and re-release of hydrogen at efficient temperatures [4][5]. The

• parameters, buckling heights, and electronic bandgap values of all strained structures in Table 2. Positive strain We applied positive strain toward deliberate expansion of the structure, particularly focusing on the lattice plane, varying its value from 1% to 17% (Supporting Information File 1, Figure S1

• ). We observed that the positive strain fails to open the bandgap in ψ-graphene (Table 2). To comprehensively analyze the impact of this positive strain on the electrical properties of ψ-graphene, we have also plotted the PDOSs and the EBSs of all the strained structures of ψ-graphene in Figure S2 and

Ion-induced surface reactions and deposition from Pt(CO)₂Cl₂ and Pt(CO)₂Br₂

• Mohammed K. Abdel-Rahman,
• Patrick M. Eckhert,
• Atul Chaudhary,
• Johnathon M. Johnson,
• Jo-Chi Yu,
• Lisa McElwee-White and
• D. Howard Fairbrother

Beilstein J. Nanotechnol. 2024, 15, 1427–1439, doi:10.3762/bjnano.15.115

• precursors that are transiently adsorbed on a substrate surface [1][2][3][4][5][6]. Charged-particle-induced deposition techniques offer control over process parameters such as particle position, energy, beam current, and flux, allowing for the formation of nanoscale patterns. Since they are direct-write

• transformations of precursor thin films. In this approach, the precursor is adsorbed onto a cooled substrate to form 1–2 nm thin films. The effects of ion beam exposure on the thin films are characterized by X-ray photoelectron spectroscopy to identify changes in the films’ composition and chemical environment

• in the inset. The photoelectron spectra in Figure 2 display the C 1s, Cl 2p, and Pt 4f transitions of ≈2 nm thin films of Pt(CO)2Cl2 adsorbed at 230 K as a function of increasing ion dose (bottom to top). On the left-hand side the effect of Ar+ irradiation is shown, while on the right-hand side the

Lithium niobate on insulator: an emerging nanophotonic crystal for optimized light control

• Midhun Murali,
• Amit Banerjee and
• Tanmoy Basu

Beilstein J. Nanotechnol. 2024, 15, 1415–1426, doi:10.3762/bjnano.15.114

• arranged in a certain direction. The periodicity is proportional to the wavelength of light that lies in its photonic bandgap (PBG) [1]. The presence of the PBG and the potential ability to tune its position to match specific frequencies is perhaps the most attractive quality of PhC [2]. The specific

• electromagnetic variational theory [56] tells that the low-frequency modes (band-1) concentrate their energy in the high-index region (TiO2 in TiO2/LN PhC (Figure 5c) and LN in SiO2/LN (Figure 6c)). The high-frequency modes (band-2) have a larger fraction of their energy in the low-index regions (LN in TiO2/LN

• value of upper band (band-2) edge at normalized wavevector k = 1. (c) Surface electric field distribution on a bilayer of PhC at the value of lower band (band-1) edge at normalized wavevector k = 1. Photonic band diagram of SiO2/LN: (a) 1st Brillouin zone of PhC under floquet periodic condition. (b

Nanotechnological approaches for efficient N2B delivery: from small-molecule drugs to biopharmaceuticals

• Selin Akpinar Adscheid,
• Akif E. Türeli,
• Nazende Günday-Türeli and
• Marc Schneider

Beilstein J. Nanotechnol. 2024, 15, 1400–1414, doi:10.3762/bjnano.15.113

• the brain controls most of the functions in the body, the spinal cord carries messages from the brain to the other parts of the body [1]. Like other systems and parts of the human body, the CNS is susceptible to various disorders [2]. CNS diseases are a group of challenging pathological conditions

• ]. These direct anatomical interactions make the olfactory region the primary target for N2B delivery and bypass the BBB [21][44]. However, some factors, such as high mucociliary clearance and short retention time, small dosage volume, and the need for a drug delivery device, limit N2B delivery (Figure 2

• studies in Table 2. N2B delivery of biopharmaceuticals Biopharmaceuticals have been described in the literature as an advanced therapeutic option for CNS diseases. One of these advanced therapeutics are monoclonal antibodies (mAbs), which are generated from B cells and are antigen-specific [134]. The

Various CVD-grown ZnO nanostructures for nanodevices and interdisciplinary applications

• The-Long Phan,
• Le Viet Cuong,
• Vu Dinh Lam and
• Ngoc Toan Dang

Beilstein J. Nanotechnol. 2024, 15, 1390–1399, doi:10.3762/bjnano.15.112

• electronic/optoelectronic devices, energy storage/generation systems, and renewable energy conversion devices with high performance and low-power consumption [1][2][3]. In comparison to semiconductors, ZnO has attracted much more attention. This is due to ZnO having outstanding semiconductor behaviours in

• centre of a horizontal quartz tube furnace, see [37] for more detail. The furnace tube was also connected with a gas line and a rotary vacuum pump oil. Before the growth, air was sucked out of the tube by backfilling it with argon (Ar) gas, and then pumped out until the base pressure went to ≈2 × 10−3